LEA'S COMMUNICATION SERIES Jennings Bryant/Dolf Zillmann, General Editors ~
~
~~~
~~~~~~
Selected titlesin Broadcas...
28 downloads
900 Views
176MB Size
Report
This content was uploaded by our users and we assume good faith they have the permission to share this book. If you own the copyright to this book and it is wrongfully on our website, we offer a simple DMCA procedure to remove your content from our site. Start by pressing the button below!
Report copyright / DMCA form
LEA'S COMMUNICATION SERIES Jennings Bryant/Dolf Zillmann, General Editors ~
~
~~~
~~~~~~
Selected titlesin Broadcasting (JamesE. Fletcher, Advisory Editor) include: Beville Audience Ratings-Radio, Television, Cable-Revised Edition Butler Television: Critical Methodsand Applications, Second Edition MacFarland Future Radio Programming Strategies: Cultivating Listenership in the Digital Age, Second Edition Metallinos Television Aesthetics: Perceptual, Cognitive,and Compositional Bases Orlik Electronic Media Criticism: Applied Perspectives, Second Edition Plum Underwriting 101:Selling College Radio Webster/Phalen/Lichty Ratings Analysis: The Theoryand Practice of Audience Research, Second Edition
For a completelist of titles in LEA'S Communication Series, please contact www.erlbaum.com. Lawrence Erlbaum Associates, Publishers, at
T H I R D EDITION
CHRISTOPHER H. STERLING The George Washington University
JOHN MICHAEL KITTROSS K\E\G Associates
Lawrence Erlbaum Associates, Publishers London
2002 Mahwah, Jersey New
Acquisitions Editor: Textbook Marketing Manager: Editorial Assistant: Cover Design: Textbook Production Manager: Full-Service Compositor: Text and Cover Printer:
Linda Bathgate Marisol Kozlovski Karin Wittig Jennifer Sterling/Spot Color Incorporated Paul Smolenski TechBooks Hamilton Printing Company
This book was typesetin 10.5/13 pt. Melior, Melior Bold, Melior Italic and Melior Bold Italic. The heads were typeset in ACaslon Bold, ACaslon Bold Italic, and Melior Bold. 0 2002, 1990, 1978 by Christopher H. Sterling & John Michael Kittross. All rights reserved. N o part of this book may be reproduced, stored in a retrieval system, or transcribed, in any form or by any means, electronic, or otherwise, without the prior writmechanical, photocopying, recording, ten permissionof authors and publisher.
Library of Congress Cataloging-in-Publication Data
Sterling, ChristopherH., 1943Stay tuned: a historyof American broadcasting/ Christopher H. Sterling, John Michael Kittross.”3rd ed. p. cm.-(LEA’S communicationseries) Includes bibliographical references and index. ISBN 0-8058-2624-6(alk. paper) 1. Broadcasting-United States-History. I. Kittross, John M., 1929II. Title.III.Series. HE8689.8.S73 2001 384.54’0973-dc21 Books published by Lawrence Erlbaum Associates areprinted on acid-free paper, andtheir bindings are chosen for strength and durability. Printed in the United Statesof America 10987654321
200104080
To our parentswho were there and thus listened to many things we missed
This Page Intentionally Left Blank
Alternate Contents (Topical) xi List of BoxedFeatures,Illustrations,andTables Preface tothe ThirdEdition (2002) xix Preface tothe SecondEdition (1990) xxiii Preface tothe FirstEdition (1978) xxv About the Authors xxix Chapter 1 TheContext of Broadcasting 1.1 1.2 1.3 1.4 1.5
3
TheConcept of MassCommunication 6 Early Communication 6 TheRise of Mass Society 8 Early Electrical Communication 9 Broadcasting: A NewMassCommunicationMedium
Chapter 2 ThePrehistory of Broadcasting(to 1919) 2.1 2.2 2.3 2.4 2.5 2.6 2.7
xv
19
Fundamental Wireless Discoveries Improvements in Wireless 33 Maritime Applications 38 FirstAttemptsatRegulation 41 The First Broadcasters 44 Radio at War 47 The Stage Is Set 50
21
Chapter 3 TheBeginnings of Broadcasting (1920-1926) 3.1 3.2 3.3 3.4 3.5
Important Precedents 56 The Pioneer Stations 63 TheStart of Networking 77 Early Educational Broadcasting TheProblem of FinancialSupport
14
53
78 79
vii
viii
Contents (Chronological)
3.6 3.7 3.8 3.9
Early Radio Programming 80 Creation of the RadioAudience FurtherAttemptsatRegulation Radio’s Early Impact 99
88 93
Chapter 4 TheComing of Commercialism(1926-1933)
105
4.1 Technology:BetterSound and EarlyTelevision 4.2 Stations: StructureandStagnation 115 4.3 TheRise of NationalNetworks 116 4.4 TheDecline of Educational AM Radio 122 4.5 Depression Radio Advertising 124 4.6 Developing Program Diversity 128 4.7 Audience: CrazetoConsequence 139 4.8 RegulatingOrder Out of Chaos 141 4.9 A Growing SocialImpact 147
Chapter 5 Radio’s Golden Age (1934-1941) 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9
6.1 6.2 6.3 6.4 6.5 6.6 6.7 6.8 6.9
175
221
Innovations: Recording Methods 226 Stations:StatusQuo for the Duration 228 The Split-up of NBC and Formation of ABC Education Struggles On 232 Advertising: 10-Cent Dollars 232 Programming Patriotism 234 TheAudienceTunes to Radio’sWar 244 PostwarPlanning and WartimeControl 249 Radio in a World at War 261
Chapter 7 Era of GreatChange(1945-1952) 7.1 7.2 7.3 7.4 7.5
153
InnovationsAround the Corner 156 Station Expansion 168 Network Domination 172 EducationalRadio: Talk but LittleProgress TheAdvertisingAgencies TakeOver 177 TheGolden Age of Programming 180 Systematic Audience Research 200 Formative Years of the FCC 207 Radio’sRole Here and Abroad 214
Chapter 6 Radio Goes to War (1941-1945)
108
231
269
TechnicalInnovations: High Fidelity and Television Growth of A M , FM, and Television 275 RadioNetworksGiveWay toTelevision 283 Rebirth of EducationalBroadcasting 290 Radio Advertising Supports Television 293
272
Contents (Chronological)
7.6 7.7 7.8 7.9
Programming: Both Heard and Seen 297 TheIncreasingDemand for BroadcastServices Regulating Expansion 319 The Impact of Television 336
Chapter 8 TheAgeof Television(1952-1960) 8.1 8.2 8.3 8.4 8.5 8.6 8.7 8.8 8.9
343
Stereo and VideotapeTechnology 346 TheSpurt in StationPopulation 349 TheDomination of NetworkTelevision 356 TheFirst ETV Stations 360 Advertising: Local Radioand National Television ProgrammingTrends in the Fifties 364 ViewingTrends and Research 382 Crises of RegulatoryConfidence 387 The Age of Television 397
Chapter 9 Accommodation and Adjustment (1961-1976) 9.1 9.2 9.3 9.4 9.5 9.6 9.7 9.8 9.9
(1988-2001)
418
481
New Technologies 485 Stations and Systems 499 Networks: A New Age 507 PublicBroadcasting(Still)SeeksItsPlace Advertising:Money and Motives Programming 526 AudienceChanges and Constants Rethinking Regulation 559 Impact 582
Chapter 11 Change and Evolution
362
405
Changing Technologies 408 Station Population Explosion 412 A Continuing NetworkPattern.. .Ripe for Change 423 EducationalBroadcastingGoesPublic AdvertisingClutter and Consumerism 428 Program Specialization and Cycles 432 AudienceRatings and Research 454 Regulatory Confusion 459 TheImpact of Broadcasting (1960-1976) 475
Chapter 10 Challenge and Competition (1977-1988) 10.1 10.2 10.3 10.4 10.5 10.6 10.7 10.8 10.9
314
517 523 550
591
11.1 Converging Technologies 594 11.2 Stations and Delivery Systems 610 11.3 Networks and Program Services-Are More Better?
11.4 Public Broadcasting: Hanging On 11.5 More Advertising 633
624
616
ix
X
Contents (Chronological)
11.6 11.7 11.8 11.9
Commercial Programming 635 Audience Fragmentation 662 Legislation, Deregulation, and Policy Into the 21st Century 675 Epilogue: September 11,2001 678
Chapter 12 Lessons from thePast for theFuture 12.0 12.1 12.2 12.3 12.4 12.5 12.6 12.7 12.8 12.9
666
681
Evolution 683 Innovating Technologies 686 ALocalStationService . . . 698 .. .with National Program Suppliers ThePublicBroadcastingAlternative Dollars and Sense 715 Programming: An ExpandingMenu And What of the Audience? 728 A ChangingPolicyWorld 734 And if There Were No Broadcasting?
703 711 719
742
Appendix A: A Short Chronology of AmericanBroadcasting Appendix B: Glossary 769 Appendix C: HistoricalStatisticsonBroadcasting 823 Appendix D:SelectedBibliography 877 Author Index Subject Index
931 937
747
Technical Innovations 1.4 2.1 2.2 2.3 2.6 4.1 5.1 6.1 7.1 8.1 9.1 10.1 11.1 12.1
Early Electrical Communication 9 Fundamental Wireless Discoveries 21 Improvements in Wireless 33 Maritime Applications 38 Radioat War (World War I) 47 BetterSoundandEarlyTelevision (1926-1933) 108 Innovations Around the Corner (1934-1941) 156 Recording Methods (1941-1945) 226 High Fidelity and Television (1945-1952) 272 Stereo and Videotape Technology (1952-1960) 346 Changing Technologies (1961-1976) 408 New Technologies (1977-1988) 485 Converging Technologies (1988-2001) 594 Innovating Technologies (Overview) 686
Broadcasting Stations 2.5 3.2 4.2 5.2 6.2 7.2 8.2 9.2 10.2 11.2 12.2
TheFirstBroadcasters(to 1919) 44 ThePioneerStations (1920-1926) 63 StructureandStagnation (1926-1933) 115 Station Expansion (1934-1941) 168 StatusQuo for the Duration (1941-1945) 228 Growth of AM, FM, and Television (1945-1952) 275 The Spurt in StationPopulation (1952-1960) 349 StationPopulationExplosion (1961-1976) 412 StationsandSystems (1977-1988) 499 Stations and DeliverySystems (1988-2001) 610 A LocalStationService(Overview) 697
Broadcast Networks 3.3 4.3
TheStart of Networking (1920-1926) 77 TheRise of NationalNetworks (1926-1933)
116
xi
xii
Alternate Contents
(Topical)
5.3 6.3 7.3 8.3 9.3
Network Domination (1934-1941) 172 The Split-up of NBC and Formation of ABC (1941-1945) 231 RadioNetworksGive Way toTelevision (1945-1952) 283 TheDomination of NetworkTelevision (1952-1960) 356 A Continuing Network Pattern (Ripe for Change)
10.3 11.3 12.3
507 Networks:ANew Age (1977-1988) Networks & ProgramServices-AreMoreBetter? (1988-2001) .. with NationalProgramSuppliers(Overview) 703
(1961-1976)
418
.
Educational Broadcasting 2.5 3.4 4.4 5.4 6.4 7.4 8.4 9.4 10.4 11.4 12.4
The First Broadcasters (to 1919) 44 Early Educational Broadcasting (1920-1926) 78 TheDecline of Educational AM Radio (1926-1933) 122 EducationalRadio:TalkbutLittleProgress (1934-1941) 175 Education Struggles On (1941-1945) 232 Rebirth of EducationalBroadcasting (1945-1952) 290 TheFirst ETV Stations (1952-1960) 360 Educational Broadcasting Goes Public (1961-1976) 423 PublicBroadcasting(Still)SeeksItsPlace (1977-1988) 517 PublicBroadcasting:HangingOn (1988-2001) 624 The PublicBroadcastingAlternative(Overview) 711
Broadcast Advertising 3.5 4.5 5.5 6.5 7.5 8.5 9.5 10.5 11.5 12.5
The Problem of FinancialSupport (1920-1926) 79 DepressionRadioAdvertising (1926-1933) 124 TheAdvertisingAgencies TakeOver (1934-1941) 177 Advertising: 10-Cent Dollars (1941-1945) 232 RadioAdvertising Supports Television (1945-1952) 293 LocalRadio and NationalTelevision (1952-1960) 362 AdvertisingClutter and Consumerism (1961-1976) 428 Advertising:Money and Motives (1977-1988) 523 Advertising (1988-2001) 633 Dollars and Sense (Overview) 715
Radio-Television Programming 3.6 4.6 5.6 6.6 7.6 8.6 9.6 10.6 11.6 12.6
Early Radio Programming (1920-1926) 80 DevelopingProgramDiversity (1926-1933) 128 The GoldenAge of Programming (1934-1941) 180 Programming Patriotism (1941-1945) 234 Programming:BothHeard and Seen (1945-1952) 297 ProgrammingTrends inthe Fifties (1952-1960) 364 ProgramSpecialization and Cycles (1961-1976) 432 Programming (1977-1988) 526 Commercial Programming (1988-2001) 635 Programming (Overview) 719
616
Alternate Contents
(Topical)
xiii
The Broadcast Audience 3.7 4.7 5.7 6.7 7.7 8.7 9.7 10.7 11.7 12.7
Creation of the RadioAudience (1920-1926) 88 Audience: Craze to Consequence (1926-1933) 139 Systematic Audience Research (1934-1941) 200 TheAudienceTunes to Radio’sWar (1941-1945) 244 The IncreasingDemandforBroadcastServices (1945-1952) Viewing Trends and Research (1952-1960) 382 Audience Ratings and Research (1961-1976) 454 AudienceChanges and Constants (1977-1988) 550 Audience Fragmentation (1988-2001) 662 AndWhat of the Audience?(Overview) 728
Regulatory Tkends 2.4 3.1 3.8 4.8 5.8 6.8 7.8 8.8 9.8 10.8 11.8 12.8
FirstAttemptsatRegulation(to 1919) 41 Important Precedents (1919) 56 FurtherAttempts at Regulation (1920-1926) 93 RegulatingOrderOut of Chaos (1926-1933) 141 Formative Years of the FCC (1934-1941) 207 Postwar Planningand Wartime Control(1941-1945) Regulating Expansion 319 Crises of RegulatoryConfidence (1952-1960) 387 Regulatory Confusion (1961-1976) 459 Rethinking Regulation (1977-1988) 559 Legislation, Deregulation,and Policy (1988-2001) Regulation and Policy(Overview) 734
249
666
Broadcasting and Society(and Foreign Broadcasting) 1.1 1.2 1.3 1.5 2.7 3.9 4.9 5.9 6.9 7.9 8.9 9.9 10.9 11.9 12.9
The Concept of MassCommunication 6 Early Communication 6 The Rise of MassSociety 8 Broadcasting: A New Mass Communication Medium 1919) 50 TheStageIsSet(to Radio’sEarlyImpact (1920-1926) 99 AGrowingSocialImpact (1926-1933) 147 Radio’sRoleHere and Abroad (1934-1941) 214 Radio in aWorld at War (1941-1945) 261 The Impact of Television (1945-1952) 336 The Ageof Television (1952-1960) 397 The Impact of Broadcasting (1960-1976) 475 Impact (1977-1988) 582 Into the 21stCentury (1988-2001and beyond) 675 And if ThereWere No Broadcasting? 742
14
314
This Page Intentionally Left Blank
An EarlyTelegraphOffice An EarlyTelephoneOffice
2 3
GuglielmoMarconi with EarlyEquipment 18 Marconi and DeForestStockCertificates 19 FlowChartonInvention of Radio and Television 22 Two EarlyAmericanRadioInventors(LoomisandStubblefield) Marconiand the Transatlantic “S”: 1901 29 Site of the World’s First Voice and Music Broadcast: 1906 m i c a 1 EarlyWirelessTransmitter 34 The Alexanderson Alternator 35 TheBeginnings of RadioRegulation 42 Herrold’s K Q W TheFirst Real Station? 46 Conrad’s “Home” Station 47 Use of Radio by the U.S.Army and Navy in 1917 and 1918 EuniceRandall, 1921 RadioAnnouncer 52 FirstRadio for Home Listening,Early 1920s 53 TheOrigins of the Patents Pool: 1919 to 1922 60 Early Radio Announcer 67 WhoWere the EarlyBroadcasters? 70 Early Radio Studios 72 Types of ProgramsBroadcast in 1925 81 An EarlyStationSchedule: 1922 84 TheEarlyRadioReceiver:HomemadeVariety 90 TheEarlyRadioReceiver:CommercialModels 92 Growth of the Standard ( A M )BroadcastBand 95 An FRC Commissioner Describes the Chaos of 1926 and 1927
24
31
50
98
xvi
List of BoxedFeatures, Illustrations,andTables
RCA RadiolaAdvertisement] 1929 104 NBC RadioNetworkRateCard, 1932 105 EyewitnessAccounts of the First Television 111 Vaudeville Faces Television 113 An EraBegins (1926)(NBC) 118 The Economicsof Network Advertising: TheFirst Six Years An Evening’sNetworkProgramming: 1930 131 Types of ProgramsBroadcast in 1932 133 Amos ‘n’ Andy 134 The FRC Establishes the Basic AM Allocation: 1928 144 MotorolaRadioAdvertisement] 1939 152 Radio, the Great Storyteller 153 TheFirstPublicDemonstration of F M : 1935 158 TheRise of ElectronicTelevision: 1930s 162 TheFirstTelevisionSets Go onSale: 1938-1939 166 TheFirstTelevisionRateCard: 1941 169 A Radio Station’sPrograms: 1937 181 Suggestions for HopefulRadioPlaywrights 184 OrsonWelles’HalloweenBroadcast: 1938 188 Radio’sComedy Stars of the 1930s 190 TheLindberghKidnapingCase:TrialbyCircus? 197 RemoteBroadcastsBecomeTruly Portable 198 TheRadioReceiverMarket in the Late 1930s 202 One Network Reacts tothe Chain Broadcasting Report:1941 BroadcastingFights Its First War 220 SmallRadiofromEmerson 221 HowUnitedPressCovered the PearlHarborStory 224 The Growth of NetworkWartimeNews: 1940 to 1945 237 AGreatReporter:WorldWar II (Murrow) 238 The Show MustGo On versus Circumstances Beyond Control RadioBrings the War to the Home Front 240 TheAttraction of the DaytimeSerial 246 TheChangingAllocations for Television: 1937-1952 251 A LandmarkSupremeCourtDecision: 1943 260 An Early 1940s TelevisionSet 268 Baseball on Television, 1949 269 PostwarPatterns:BroadcastingExplodes 277 Early Television Studios 280 The CBS Team 284 Network-OwnedTelevisionStations:AChangingCast
289
127
212
239
List of Boxed Features, Illustrations, and Tables
NetworkRadioProgramming:FredAllen and Stop the Music Types of RadioProgramsBroadcast in 1946 300 RadioDrama at ItsHeight 301 ChangingPatterns of TelevisionProgramming: 1951-1954 RadiotoTelevision:TheGoldbergs 305 TheGreat TV ComedyTeams 306 TV Receiversfrom the Early 1950s 316 The BigRed Scare: 1950 335 WalterCronkiteonaRemote, 1952 342 BobHope and BingCrosby 343 Sarnoffs and Weaver:NBC’s Executive Team 359 TheEnd of Radio’sDaytimeSerial: 1960 366 TheRise of FormulaRadio 369 TV’s IsolationBoothEra 377 A Pioneering TV DocumentaryTeam 378 The“GreatDebates” of 1960 381 Charles Van Doren on How the Quiz Shows WereRigged
xvii
298
304
395
AnEarlySonyPortable TV, 1963 404 Dean Martin &JerryLewis,Early 1950s 405 Carnegie Commissionand the 1967 Act: The Creationof “Public” Television 425 TalkTalk Talk. . .Morning and Night 442 And now. . .the evening news with.. . 445 CBSNewsCoversMan’s First Landing on the Moon: July 1969 448 Television Violence: The Surgeon General’s Committee Reports (January 1972) 458 Rise of the FairnessDoctrine: 1941-1974 464 TheCableRegulatoryCycle 468 “Portable”Video Camera, 1964 480 ABC PoliticalConventionControlCenter, 1976 Changing Transmission Modes 489 TheConsumerDigitalEra 492 KeepingUp with Technology 494 HDTV: Improving the Picture 497 TheNetworks’ Eye in the Sky 513 AuxiliaryTelevisionServices 1977-1989 514 TheVietnamWarasTelevisionDrama 533 Cosby-Comedy Success 534 NetworkAnchors . . . TheNextGeneration 541 Covering the Conventions 549
481
xviii
List o f BoxedFeatures,Illustrations,andTables
People Meters 554 Rewrites and Deregulation Fall of the FairnessDoctrine
563 568
PentagonNewsBriefing during Gulf War, 1991 590 September 11,2001:WorldTradeCenter 591 HDTV and NTSC 603 Cable’sPlethora of Channels 620 Barney 629 Who Wants to Be a Millionaire? 638 NYPD Blue 640 West Wing 642 Survivor 643 ER 644 Seinfeld 646 The Simpsons . 648 Tonight Show (Leno) 650 0.J. Simpson Trial 654 TelecommunicationsAct of 1996 and the ElectronicMedia Television Code Categories 671 September 11,2001 678 TelevisionAntennason the Roof (1940s-1950s) SatelliteDisheson the Roof (1990sand beyond) Here a Dish,ThereaDish 692 SatellitesExtend the Reach 708 Decades on Sesame Street 714 Setting the EntertainmentPattern(Burns & Allen) Network Hegemony 724 Televising Sports Then and Now 726 AllNews,All the Time(CNN) 728 Staying Tuned 732 The Sarnoff “RadioMusic Box” Memo 743 SomeAudioRecordingFormats 804 SomeVideoRecordingFormats 805 Idealized Television Channel 814 Waves,Propagation,Frequency,Wavelength
680 681
821
721
668
Broadcasting-if, indeed, the term “broadcasting” is still a valid label for the subject matter of this book-isn’t what it used to be. In some respects, it is better, in some worse than itwas in decades past-but it certainly is different and more complex. Nearly a quarter of a century ago, when the first edition of Stay Tuned was published, thebroadcasting industry wasrelatively simple and placid. The second edition, published a dozen years later, reflected the technological, organizational, economic, and legal developments that then had started to change the industry. Today, it is almost an entirely new ball game. Keeping up is a major task. To understand the game’s unwritten rules, it is more important than ever to understand how thebroadcasting industry hasevolved to what it is today. That is the purposeof this new editionof Stay Tuned. Accordingly, we have reviewed every single word of the second edition, removed ambiguities and a gratifyingly-small number of reported errors, added in new and sometimes unpublished scholarship in broadcasting history-such as research by Louise Benjamin, Donna Halper, Don Godfrey, Harold Cones, Paul Beck, Gordon Greb, and Mike Adams and many other known and unknown contributors to the bodyof knowledge found in this volume-and eliminated discussion of a few “dead ends” that earlier we didn’t knowwere dead ends. To bring this account of broadcasting history up to 2001,we’ve written a new chapter 11 to describe what in our judgment are significant historical developments from 1988 until the present and completely rewritten chapter 12 (“Lessons From the Past for the Future”)in light of new lessons. To make this edition even more useful, we’ve expanded the Bibliography (Appendix D) substantially, supplied “Selected Further Reading’’ for each chapter in an alphabetical format (within topics) in order to avoid the risk of influencing readers with our own biases, and expanded both the XiX
xx
Preface to t h e Third Edition (2002)
Chronology ofAppendix Aand the Glossary of Appendix B. The historical tables in Appendix Chave been thoroughly updated and reorganized and several new ones have been added on topics from public television programming tothe relationship of television to presidential elections. We’ve also moved most of the data from the “Key Indicators” tables for every five years found in the second edition to Appendix C-partly because what once were “key” no longer may be so, and partly because of the increasing unavailability of current data. Nothing significant from earlier editions hasbeen omitted. We’ve seen many developments since the second edition. Digitized technologies, the convergence of broadcasting and computers, viable new broadcast networks, an ever-growing tendency toward concentration of ownership of networks and stations, commodification of everything from industries to programs and audiences, the possibly temporary triumph of the ideology of deregulation, programming more highly specialized than had been imagined a few years earlier and lowest-common-denominator “reality” (suchas Survivor) and quiz programs, DTV and DVD and a myriad of additional technological acronyms, streaming, changes in the copyright law, and literally dozens of other developments all are to be found in the pages of this edition of Stay Tuned. These developments all have at least one thing in common: None of them appeared full-blown, out of nowhere. They all evolved from earlier developments, inventions, trends, and principles-and this is where we hope Stay Tuned will be most valuable. The reader can both understand what is behind what sheor he sees or hears today and develop a sense of historical evolution that willmake it possible to be better prepared for what will show uptomorrow. We are trying to concentrate on trendsand principles, even though they are reflected in myriad developments and events. We do try to point out that “whateveryone thinks happened” isn’t always what actually occurred. For example, was the first U.S. broadcasting station KQW, KDKA, WWJ, or 1XE or one of several other claimants? Did Marconi deserve his reputation for having invented radio, or should the praise go to Tesla? Why has Armstrong been largely forgotten-but de Forest remembered? We try to provide data that may help you decide these questions, but we are not egotistical enough to act as “the” judge. Although both of us are trivia buffs, we also are well aware that trivia of person, time, place, and gadget is much less important than are trends. I n preparing this edition, we owe special thanks to our long-suffering families, perceptive readers such as Lou Benjamin and Don Godfrey, and the helpful staff, particularly Linda Bathgate, at Lawrence Erlbaum Associates, our new publishers. The manyproduction problems inherent in a book of this length and scope were handled with aplomb by Susan Detwiler, of TechBooks; Ruth Mandel wasof great help inlocating photographs; and Jennifer Sterling (who was less than a year old when this project was
Preface to the Third Edition (2002)
xxi
conceived) and her colleagues at Spot Color Inc. were responsible for the design of this edition’s cover. The professional interests of both authors have changed-Kittross is deeply into media ethics, and Sterling into telecommunications policy-and our book jacket photographs from earlier editions no longer look like us. While Sterling is stillat George Washington University, Kittrossnow is managing director of K\E\G Associates, an academic consulting firm, and editor of Media Ethics magazine. Although the authors are as excited about the history of broadcasting as they ever were, a look around our homes-filled with computers, new television sets with bells and whistles, VCRs, CD players, radios, and other paraphernalia, but nolonger containing children (all of ours now have their own homes, computers, television sets, etc.) or parents-tells us that the rate of change has, if anything, speeded up.If one claims to be knowledgeable about broadcasting, there is a lot, past and present, that one needs to know. While predicting the future is even more problematic than interpreting the past, it is an impossible task unless one understands both the present and howit evolved from the past. For example, will today’s new technologies and programming, providing hundreds rather than only scores of content choices every minute, ultimately be beneficial or harmful to society? Will the raging growth of deregulation-spawned concentration of control of broadcast outlets remove the last vestiges of “localism”? Will our growing dependence onspace communication satellites render us more vulnerable to accidental sundering of our communications connections? What will be the effect of replacing the “public interest, convenience, and necessity” licensing standard with auctions and lotteries? Stay tuned! In 1958, acclaimed newsman EdwardR. Murrow saidto his colleagues, “This instrument[of television] can teach, it can illuminate;yes, and it can even inspire. But it can do so only to the extent that humansare determined to use it to those ends. Otherwise it is merely wires and lights in a box. There is a great and perhaps decisive battle to be fought against ignorance, intolerance, and indifference. This weapon of television could be useful.” In itsown small way, we hope this third edition of Stay Tuned also will be useful to youas you fight the battle. C.H.S. and J.M.K.
This Page Intentionally Left Blank
In the decade since publication of the first edition of Stay Tuned, the world has not stood still. Indeed, the jury is out as to whether thisperiod has not seen more changes in broadcasting than any other decade since broadcasting became an industry in the 1920s. It may be argued that the late 1970s were the period of highest complexity, even achievement, of the broadcasting industry, as described in chapters 3 through 9. It was aperiod of real scarcity of outlets, with limited opportunity for entry. But it also was the last periodwhen the people running the industry hadcome up through the ranks and perhaps stillbelieved in broadcasting as a publicinterest, convenience, and/or necessity. Actually, 1978 marked the startof a new ball game. At that time, only three-quarters of today’s full-power stations were on the air; cable served only half the number of homes it serves today-and pay-cable was only starting; home VCRs were virtually unknown; PBS rarely made the ratings books; nobody talked about LPTV or HDTV; the FCC was still a force to be reckoned w i t h ; “indecency” was left to the pulpit and the pamphlet; and nobody ever dreamed thatall three networks, the moststable part of the industry, would be sold. There are those who now say that the “gee-whiz” or “glamorous something special” hallmark of broadcasting has dissipated. They say that broadcasting is only one small but inseparable part of our current culture and economy. By 1980, it wasclear that the newbreed of MBAs were in control of broadcasting, as they were in many other industries, and were treating broadcasting as “just another business” that could be manipulated for improvement of the short-term “bottom line” according to the gospel of the graduate business schools. Additionally, the Reagan administration had the political clout to expand the “marketplace ideology” policies supporting arbitrary deregulation that had surfaced late in the Carter administration. These views are held by many outside of broadcasting and, due to the xxiii
xxiv
Preface to the Second Edition (1990)
influence of the present crop of business managers who do not think of broadcasting as a calling, by many now inpositions of leadership in radio and television. The authors of Stay Tuned,however, arenot convinced that we shoulddismiss the special nature of broadcasting that easily. We believe that it is special, even if its shape haschanged, of the We have tried tocover the turbulentfirst decade of this new shape industry in a n all-new chapter 10,while retaining those portions of earlier chapters that have withstood the test of time and the slings and arrows of our colleagues and students. Rewritten chapters 9 and 11 benefit from what we have learned since the first edition. Corrections and minor updatings have been made in chapters 1 through 8 , and the greatly expanded glossary and bibliography include theresults of current knowledge and scholarship. Tables in Appendix C have been updated, a difficult task since the FCC, in the name of “deregulation,” no longer collects much of the data wehad access to earlier. To do all this required help. Frank Kahn voluntarily supplied a surgical overview of the first edition; George Shiers brought his technical knowledge to bear, as did Paul Beck; Amy Vossen gleefullyunlimbered her blue pencil on the new sections; Donald G. Godfrey, Harry Sova, and Michael J. Stanton provided useful feedback as they reviewed chapters 10 and 11; the ever-patient Becky Hayden hadevery excuse to stop being patient; those who called upon us for information (and the settling of bets) found themselves pumped for information; those who complained about our subtitling the book “American,” ignoring the other nations of this hemisphere, received apologies; and several classes of guinea pigs suffered goodhumoredly. As individuals, we have noted some changes that are not explicitly included in Stay Tuned. Our children are not children any more; there are new pets tofeed; only one of the parents to whom we have dedicated this volume is still alive; we have both dabbled in academic administration; we have both moved to new locations (the George Washington University and Emerson College, respectively) and owe thanks to new presidents and chairpersons. We have both subscribed to cable and acquired VCRs. But the important things remain the same: the steadfast support of our wives, and our belief in-and excitement over-the importance of the history of broadcasting. C.H.S. and J.M.K.
“. . .it might be advantageous to ‘shout’ the message, spreading it broadcast to receivers in all directions, and for which the wireless system is well adapted, seeing that it is so inexpensive and so easily and rapidly installed-such as for army manoeuvres, for reporting races and other sporting events, and, generally, for all important matters.. .”-J. J. Fahie, A History of Wireless Telegraphy(1901),p. 259 “In 1928 we were watching it grow. “And in 1950 the radio art will have influenced this whole people for more than thirty years, breaking down their distance barriers, making all the world their neighbor, carrying the electric word from coast to coast and nation to nation. . .promoting understanding, sympathy, peace . ..
..
“It will have played its part in the development of music . in education, and in business, and in happiness.. .”-Paul Schubert, The Electric Word (1928),p. 311 We think that thehistory of broadcasting is important. The ambiguous mirrors of radio and television, reflecting the world about us and projecting our interests and concerns upon themselves, are a major part of all our lives. In fact, most of us spendmore time listening to and watching radio and television in anaverage week than doing anything else except perhaps sleeping. But we feel, in addition, that any institution-such as broadcastingmust recognize its roots and learn from its history in order to compete with other institutions and to grow in a constantly changing environment. Even though the past never exactly repeats itself, our knowledge of it will shape our future course. Our goal is to tell how American broadcasting got where it istoday and, by analyzing principles, events, and trends, suggest what directions it may
xxvi
Preface to the First Edition (1978)
take in the future. We emphasize trends rather than incidents and trivia, key individuals rather than random examples, and basic principles rather than isolated facts. Instead of just listing events, we try to explain them,interrelating developments in technology, organization and structure of the industry, economics, news and entertainment programming, audience research, and public policy and regulation. We have arranged our material both chronologically and topically. The chapters are built around well-defined, consecutive periods of broadcasting’s development. The topical arrangement of sections within chapters is consistent throughout the book except for the first two chapters. Tables of contents for both approaches are provided. Within each chapter describing an era, we start with technology-the conditions, inventions, and innovations of that period relating to broadcasting. Man-made laws are more easily changed than are natural lawsgoverning the electromagnetic spectrum. Allocations of spectrum space trigger political attention because broadcasting is important to the public. Allocations of time and money are important to other technologically based media and industries. Technological innovation involves economic antecedents and consequences, from the acquisition and control of patents, the unwillingness to discard investment in obsolescent studio equipment and receivers, to the entire range of relationships between government, industry, and the public, as thefinancial stakes grow over the years. These relationships are often far more important than the individual inventors, innovators, or electronic devices they develop. Within each chapter beyond theearliest, we then discuss the basic unit of broadcasting-the individual station, originally thought of as the outlet for local expression and regulated by Congress accordingly. Stations soon found it more profitable to establish affiliation with a national network, helping create the powerof nationwide broadcasting organizations, to which we turnour attention in the third section of most chapters, We see the changing cast of haves and have-nots among stations and networks constantly jockeying for position and often creating or coloring important trendsin thenot-so-monolithic broadcasting industry. In the fourth section of chapter 3 and later chapters, we examine the checkered development of educational, later public, broadcasting and the often precarious fortunes of noncommercial broadcasters, supported bydonations, schools, government, and, more recently, corporate underwriting. However, radio and television in the United States have become overwhelmingly commercial in respect to overall investment, audience interest, or nearly any other criterion, By the late1920s advertising agencies had assumed a dominant position in network programming policy-making, a position they held for nearly three decades. Also discussed in the fifthsection of most chapters are the changing roles of different media as new broadcast advertising competitors arrived on thescene. Certainly listeners value broadcasting almost exclusively for its programming. In the sixth part of all but the first two chapters we review the
Preface to the FirstEdition (1978)
xxvii
development of program types, the apparent cycles of their inventionimitation-decline over the years, and the borrowing by one medium of another’s content. We explore reasons for television’s rapid development of program diversity compared with radio; we see why entertainment programming has been most popular whilespecific news broadcasts are often most memorable. Broadcast programming helps us maintain our surveillance of the world, to integrate what we see and hear, and transmits our culture-whether we like it or not--from person to person, country to country, and generation to generation. At the same time, its entertainment is a counterbalance to the stresses of our increasingly complex society. One cannot discuss programming without looking at the audiences, of which we are all a part. The seventh part of chapters 3 through 10 [l1 in the second edition] covers various aspects of the audience for radio and television-how it evolved, its reflection in the development and sale of receivers, ways of measuring its size, needs,and desires, and the effects that broadcasting is believed to have on people. Because the radio spectrum is considered to be a national natural resource, it is administered by the federal government. We devote the eighth section to the roles of the legislative, judicial, and executive branches of government as well as to that creature with characteristics of all three, the Federal Communications Commission and its predecessors. Communications policy in this country is anintricate combination of politics, economics, technology, and sometimes logic, formed in a crucible of opposing public and private interests. Because the regulatory policies and judicial doctrines form slowly, many problems in broadcasting continue without apparent solutionfor years or even decades. Finally, each chapter ends with a very brief account of the parallel events in broadcasting elsewhere in the world and notes some relationships of American radio and television to other social expressions of the period, such as wars, fads, the Depression, and Watergate. Within this topical structure, we follow not only trends and continuing problems but thecontributions of individual persons. Problems often return in other guises with other casts of characters. Personnel changes create policy changes in or among networks, stations, advertisers, the FCC, Congress, and citizen groups that can affect the entire institution of broadcasting. In reviewing the lives of radio and television’s pioneers, we are reminded that broadcasting has been a partof American life for little more than a lifetime. The authors of this book are, quite frankly, fascinated with the subject of broadcasting. We have tried to share our enthusiasm and show why broadcasting history is interesting as well as important. Our method lacks some of the trappings of serious historiography (footnotes)but does include a detailed glossary in unusualformat, a lengthy bibliography of sources for further reading, supplementary tables, a chronology, and an index. In Stay Tuned we have tried to note the important events and themes in American broadcasting’s story through careful selection of items to include in this single volume and subjects to analyze at length.
xxviii
Preface to the FirstEdition (1978)
To find what we included, we suggest that you pay particular attention to the two tables of contents (chronological and topical), skim through the appendixes to get a sense of their contents, and thendig in where thebook seems most relevant or interesting. N o matter where you startor how you use the book, we hopeyou will obtain a better understanding of how broadcasting became the industry-art-babysitter-hero-villain-advertising mediumentertainer-news communicator and everything else it istoday. In the research, writing, and editing of this volume, we have had the help of many people. Among those who deserve our warmest thanks are (alphabetically):Joseph E. Baudino, of the Westinghouse Broadcasting Company and the Broadcast Pioneers, for his unparalleled knowledge of radio’s early days; Joseph Berman, of Ohio University, forhelpful criticism and encouragement; Gordon Greb, of San Jose State University, for his expert knowledge of early radio pioneer “Doc” Herrold; Kenneth Harwood, Dean of Temple University’s Schoolof Communications and Theater; the ever-patient Becky Hayden, of Wadsworth,who more than any other person is responsible for keeping us going for half a decade and hence for many of the strengths of this book; Temple colleague Sydney Head forhis page-by-page criticism; Cathie Heinz and her staff at the Broadcast Pioneers Library in Washington; the Journal ofBroadcasting‘s many contributors during the long yearswhen one or the other of us was editing it (1960-1976);collector of broadcast data par excellence Lawrence W. Lichty; consummate manuscript editor Jean Schuyler, who overcame the turgid prose of early drafts; Elliot Sivowitch of the Smithsonian’s division of electricity and nuclear energy, who set us straight on many occasions; Robert R. Smith of Boston University, who offered valuableand constructive criticism at several stagesof the book‘s gestation; Dallas W. Smythe of Simon Fraser University,who showed how to look behind the scenes; and Nathan B. Stubblefield, for obvious reasons. We also owe gratitude to our many sources, among which are the books listed in the bibliography, many that are not so listed, several different libraries, countless secondhand bookshops, various Temple University departmental chairmen-one a former Iowaradio station manager and network operations supervisor, the second a former Philadelphia weekend television anchorman, and the third the son-in-law of radio’s The Whistler-who ignored the mounting quantity of xerography requisitions, and many others. As with most such volumes, our families gave far beyond the call of duty, without even the inner spur of scholarship or the outer spur of academic politics, and we hope that this recognition of the Sterling (Ellen, Jennifer, and Robin), and Kittross (Sally, David, Julie, and Serendipity) clans willbe an aid to them during the transition of becoming reacquainted with husbands andfathers. And, of course, for several years we have had each other to fight with, leading us to adopt the cheerful injunction in Backstrom and Hursh’s Survey Researchthat “the authors willattribute any errors to each other.” C.H.S. and J.M.K.
Christopher H. Sterling is a professor of Media and Public Affairs and of Telecommunications, and served as associate dean for graduate affairs in the arts and sciences at George Washington University, having joined that faculty in 1982. From 1980 to 1982, he served as a special assistant to FCC commissioner Anne Jones. Before that, heserved for a decade on thefaculty of Temple University’s School of Communications and Theater. Sterling founded Communication Booknotes Quarterly in 1969 and still edits this review service, edited the Journal of Broadcasting for five years, and was chairman of the Broadcast Education Association from 1985 to 1987. Among his other books, he co-authored, with Sydney Head, four editions of Broadcasting in America, authored Electronic Media: Trends in Broadcasting and Newer Technologies, 2920-1983, co-authored History of Telecommunications Technology: An Annotated Bibliography, plus a number of other books on thetelephone and telecommunications industry. He has lectured onAmerican telecommunications policy in the United States, Europe, Asia, and Latin America. Amonghis avocations are collecting books about communications policy and history, passenger air and sea travel, codebreaking, Winston S. Churchill, and medieval castles. He and hiswife have two grown daughters and live in the Virginia suburbs of Washington, D.C.
John Michael Kittross currently is Managing Director of K\E\G Associates, an academic consulting firm, and editor (since 1989) of Media Ethics magazine. After nine years on the faculty of the University of Southern California and more than 16 on the faculty of Temple University (where he was associate dean for graduate matters in the School of Communications and Theater), he moved to Emerson College in January 1985 as academic vice president, returnedto teaching in the Fall of 1987, and “retired” in the mid-1990s. His interest in radio was kindled in high school, and his first full-time job in broadcasting was in the newsroom of WNYC at the side of his Antioch College classmate, Rod Serling. Other jobs in the media followed before Kittross earned his doctorate in communications at the University of Illinois. Among other scholarly publication efforts, he co-authored two editions of Controversies in Media Ethics (with A. David Gordon, John C. Merrill and Carol Reuss), wrote Television Frequency Allocation
xxx
About the Authors
Policy in the United States, was editor of the Journal of Broadcasting for more than 12 years, edited Administration of American Telecommunications Policy Documents in American Telecommunications Policy, and Free b Fair: Courtroom Access and the Fairness Doctrine [with Kenneth Harwood), and compiled A Bibliography of Theses and Dissertations in Broadcasting, 2920-1973. He considers himself a jack of all trades and a gadfly, appreciates and uses gadgets, holds an amateur radio license, is thrilled by the experience of learning something new, enjoys academic, of topics, walks a great deal in journalistic, and legal consulting on variety a the U.S.and U.K., and is inordinately proud of his personal library. With their two grown children nowlocated elsewhere, Kittross and his wife (and his books) live in thewestern suburbsof Boston.
Chapter Outline 1.1 The Concept o f Mass Communication 6 1.2 Early Communication 6 1.3 The Rise of Mass Society 8 1.4 Early Electrical Communication 1.4.1
9
The Electrical Telegraph 9 1.4.2 Submarine Cables 11 1.4.3 TheTelephone 12 1.4.4 The Electrical Manufacturing Industry 14 1.5 Broadcasting: ANew Mass Communication Medium
Selected Further Reading 16
4
14
hat was the world like before television? Or radio broadcasting? An elderly few can remember the worldbefore radio, and many can remember television’s advent. It wasn’t all thatlong ago. Today, however, most Americans spend more time with radio andtelevision than they do at any other activity, including working and sleeping, and most Americans get most of their news from television. Obviously, we are dealing here with a phenomenon that is not onlyrelatively recent but extremely important, one whose cultural impact isalmost inestimable. Why, then, do we knowso little about its development? Unfortunately, most early broadcasters and inventorswere too busy creating an industry, and surviving in what they had created, to think of recording its development for those who followed. Now most of them are no longer with us. At the same time, pragmatic reasons for knowing about broadcasting’s history are cropping up, and more people are becoming interested in it-and need to. For example, regulation of space communications satellites follows principles established in international agreements in 1906, and even some from 1865. Early television programming of the 1940s and 1950s resembles the evolution of radio programming in the1920s and 1930s. The beginnings of both cable television and pay-TV are discernible in a telephonic system in Budapest a centuryago that distributed music andinformation for a fee. Videodisc recording is a descendant of Baird’s television experimentation in England during the 1920s. In 1945, Arthur C. Clarke wrote a description of space communications satellites. Programming on the Internet has borrowed extensively from broadcasting practices. In addition to basic principles, currentproblems have their roots in the past. For instance, placing the international distress (“SOS”) frequency at 500 kHz in 1912-a location it didn’t leave until the late 1990s-led some years later to placing standard (AM) broadcasting on a portionof the spectrum utterly unsuitedto competitive local broadcasting. New Jersey’s1970s fight for a VHF television channel was really an attempt to overturn a1945 political decision by the FCC that is acornerstone of the United States television system. The still-mentioned Fairness Doctrine stems from specific statutory language in 1959, a 1949 FCC policy decision, a 1941 licensing case, the “public interest, convenience, and necessity” language in the Communications Act of 1934, and interstate commerce regulation right 5
6
Chapter 1 TheContext of Broadcasting
back to the Constitution in 1789. Indeed, there is hardly an argument on any aspectof modern broadcasting that does not leave one with a feeling of having heard all thisbefore!
1.1 The Concept of Mass Communication “Mass communication”is the effort to share information or entertainment with lots of different people through a technological intermediary. We can trace this concept all the way from primitive spoken language and cave drawing, and we can follow the development of modern mass communication from the introduction of print 500 years ago to the increasingly elaborate technologies of the motion picture,radio, and television. When one imparts ideas and information “to whom it may concern’’ through some mechanical or electromechanical means, usually rapidly, over considerable distance, to a large and essentially undifferentiated audience, and whenthere are many copies of the message (duplicates of a newspaper or individual television sets tuned in)-then we have mass communication. A mass mediumis (a) the means-a printing press or broadcast transmitter-by which thecommunicator produces and distributescopies of the message to the mass audience or (b) the industry that operates that means. A mass audience,usually large but sometimes not, consists of people who typically are related only by their attention to the same message. The distance between the source and the audience can usually be measured in miles, but a newspaper restricted to a campus is stilla mass medium. The audience may be highly specialized rather than undifferentiated-an abstruse scientific journal may reach only a few specialists in that field. Circulation can be small. Although Letters to theEditor and call-in programs on radio involve some person-to-person communication, they still reacha large audience. Unitcost to the consumer, typically low, may be high, asit was with early-day television. Messages usually are transmitted and received at or about the same time-but many books are timeless in appeal. And there are gray areas, such as truckers using CB radio and a chat room on theInternet.
1.2 Early Communication Mass communication began when cave dwellers first shouted a warning to all the tribe within earshot or, closer to modern methods, usedtechnology such as a horn, bells, a hollow-tree drum, a signal fire, a flag of cloth or wood, or a piece of reflecting metal to maintain surveillance of their surroundings and improve their chances of survival. Eventually, people used more complex ways to transmit their culture to the next generation. The
1.2 Early Communication
7
prehistoric but realistic paintings of animals and animal hunts on cave walls probably served as hunting lessons for younger members of the tribe and possibly also as religious symbols intended to ensure good fortune on future hunts. In thisway the tribe could refresh their memories and build on the lessons already learned without each generation having to start all over again. These two typesof communication, transient and recorded, are to be found today. Slowly, over thousands of years, pictures of people, places, animals, and things became conventionalized and stylized into symbols. Although most people still learned through oral tradition or storytelling, small ruling classes and religious elites developed a system of pictographs and hieroglyphics-the printed, stamped, inscribed, painted, or carved “word.” But written language was a code that only a tiny fraction of society could understand, with oral tradition serving the rest. Communication typically depended on human senses and abilities. When speed was uppermost-a prearranged code of signal fires carried news of the fall of Troy across most of Greece in a single night-the amount of information transmitted had to be small. Sending a long or complicated message took longer-as with the Romans’ semaphore and flashing light devices-and sometimes involved a human carrier using any available means of travel, whether it was a horseman using a Roman road or an Incan royal messenger using a high-speed foot trail in the Andes. After the fall of Rome in the fourth century A.D., the Roman Catholic Church preserved much of the knowledge of the past in itsmonasteries. By painstakingly reproducing books by hand, themonks managed to preserve some of the culture of the past that was not being transmitted by word of mouth among the illiteratemasses. The first real change in mass communication came with the introduction of the printing press and movable type-separate wood block or tin letters that could be temporarily combined into desired words that would form a page fromwhich to print manycopies. The first use of movable type in theWestern world is ascribed to JohannesGutenberg of Mainz, Germany, who either developed his own press, type, and ink, or applied Far Eastern techniques in 1456. The new process soon spread across Europe and its colonies, although its use was sometimes held up by the Church, which objected strongly both to losing its monopoly of recorded communications and to theincrease of secular publishing that the Renaissance had stimulated. Although greatly faster than hand copying, printing was restricted to the relatively slow speedsof hand-operated presses until the 1800s, when steam-driven presses became practical and common. Low-cost printing made books available to many more people, was a stimulus to literacy, standardized the appearance of alphabets, and enhanced the idea of the utility of books, reducing their artistic and increasing their social importance.
8
Chapter 1 The Context of Broadcasting
1.3
The Rise of Mass Societv
Significant changes were taking place in Western society in Gutenberg’s day. A new middle class of traders and merchants, between the upper nobility and thepeasant poor, kept themselves informed of foreign developments in technology, commerce, and politics. Reformation within the Catholic church and revolt from without brought new patterns of societal control to Europe. The spread of secular news and knowledge brought aloosening of religious control over everyday life. Inaddition,the long-lasting feudal system began to give way to parliamentary government as the population, spear-headed by the growing merchant middle class, began to question the spendingpractices of monarchs. At the same time, a renaissance of learning and art was taking place. Starting in southern Europe, the fine arts flourished, science and technology advanced, knowledge was acquired from the East, and new ideasonce again became acceptable. Versatile men appeared, like Leonard0 da Vinci, who could work in medicine, science, military technology, art, and music, Sometimes noble families, who still held most of the money, and consequently power, acted as patrons of a high culture of artists, musicians, architects, and some scientists-all of whom produced their work for this small elite or for the Church. In manycivilizations, the common people who provided the economic base for high culture had their own thematically and technically simple folk culture from which thehigh culture often borrowed. Folk culture of the Middle Ages took the form of fairs, circuses, traveling minstrels, song and story sessions, and morality plays, providing some religious instruction and a great deal of diverting entertainment. In the 1700s the Industrial Revolution spread from England tothe continent. Machines, driven by water and steam instead of human and animal power, supplied an increasing amount of manufactured goods that the home couldn’t produce, at prices that individual craftsmen couldn’t match. By the 1800s, manpower needs of industry, expansion of international commerce, and the start of mechanized agriculture led people toward city living. The growing cities furnished an industrialbase, great amounts of information and people who wanted it, and a market for mass-produced entertainment and information. The density of population made distribution easy. The local tavern or coffee shop continued to serve as a center of communications as it hadfor hundreds of years, but information now came in posted broadside advertisements or printed newspapers in addition to the traditional wordof mouth from travelers. This situation wasanalogous to the“first color TV set in town” being in the local bar. Although literacy was increasing, thanks to public and private schooling in the 19th century, improvements in transportation and technology were more important to communication in the increasingly urbanized society. Steam power permitted the mechanization of printing presses,
1.4 EarlyElectricalCommunication
9
made transportation by water faster and more reliable, and allowed the railroad (supplemented byimproved carriage and wagon roads) to knit all parts of a country together. Greateroccupational specialization, particularly in cities, led to an increased use of money instead of barter and to an increased need for news and entertainment-mass communication. Most important, in the 19thcentury the first electrical communication devices (the telegraph and then the telephone) decisively overcame the problem of speed without dependence on unaided senses or transportation. By the mid-l800s, both the socioeconomic systems of the more developed countries and their emerging technologies were ready for introduction of the components of the mass electronic media we know today: radio and television broadcasting.
1.4 Early Electrical Communication
mmR
For centuries the technological developmentof communication involveddistance, speed, number of copies, and quantity of content. Each new technology
was a balance of these demands. The Pony Expresscould deliver mail faster than any other method, but only a few pounds at a time. If many copies of a communication were required, or if each copy contained many pages, production might takemuch more timeand space than for a more limited output. While printing answered the fundamental question of quantity, it didso at the expense of speed-the time needed for gathering information, setting it in type, and printing, binding, and distributing newspapers, magazines, or books. Improving routes and methods of transportation shortened distances, but the speed with which news could travel still was limited by how fast man, animal, train, or ship could go. Combining distance with speed became possible with the development of telegraph systems, such as the mechanical semaphore originated by the Romans and forgotten during the Middle Ages, Rediscovered, the semaphore systems of several European countries reached a high degree of efficiency in the late 1700s. They were fast and simple for short messages, but the equipment was expensive to build and operate, and many towers would be needed to relay signals over long distances. Their inefficiency for long messages and their high personnel costs limited use to the most urgent needs. Although lights could be used at night, the semaphore was essentially a daytime, good-weather system that, like all telegraphs, achieved point-to-point rather than broadcast communication. 1.4.1
The ElectricalTelegraph
I
The semaphore was quickly rendered obsolete by the electrical telegraph. Electricity could travel through a wire at almost the speed of light, and it needn’t worry about fog or bad weather. Wherever a wire could be strung,
10
Chapter 1 TheContext of Broadcasting
there the electrical telegraph could go; nor did operators have to be within sight of each other. All that was needed was a source of electricity, a a to conduct electricity, and a switch or key to manipulate the current, wire mechanism-the element inventors changed most frequently-to “read” the transmittedmessage visually or audibly. In the United States, the first practical telegraph was invented by Samuel Finley Breese Morse, then well-known as an artist. In 1832he learned from a fellow passenger on a ship returning from Europe about the electromagnet and work being done on electrical signaling for railways in England. Morse’s first electrical telegraphy instrument, in 1835, used pulses of current to deflect an electromagnet, which moved a marker to produce a written code on a stripof paper. A year later he modified the device to emboss the paper with dots and dashes. These were elements in what is nowcalled “Morse code,” even though it probably was actually developed by Morse’sfinancial partner Alfred Vail. This code was carefully constructed, in keeping with what we now call Information Theory, with the most common letter, e, coded in the easiest form, one dot. With such acode, the inventor neededonly one wire circuit to send sequentially even the longest messages. Some earlier devices had needed a separate wire circuit for each letter of the alphabet! In 1840, Morse secured a patent on the system. His ultimate source of funds, as with so many later inventions, was the United States government. In 1843 Congress appropriated $30,000, and Morse used it to construct ademonstration line to span the 40 milesbetween Washington and Baltimore. He had to solve many technological problems-particularly insulating thewires so that the electricity wouldn’t leak into theground-as is often the case when scaling up from a laboratory model. The official first message, “What hath God wrought,” was sent May 24,1844. In 1847 Congress sold the demonstration line to Morse interests, and the United States opted outof governmental control of telecommunications for the time being. Morse soon found thatit was extremely hard to defend his patent because the technology was so simple. As a result, more than 50 telegraph companies were operating by 1851, and many more followed. But the number of important companies shrank steadilyafter the creation of the Western Union Telegraph Company in 1856, as uneconomical duplications and poorly engineered lines led to mergers and absorptions. By the early 1900s only Western Union and Postal Telegraph remained strongand, at the start of World War 11, after Congress passed a special antitrust law exemption, Western Union took over Postal Telegraph. The telegraph was so efficient that it quickly eliminated competing forms of communication, such as the Pony Express, which died less than two years after its founding when the first transcontinental telegraph line opened in 1861. While the telegraph had important military applications, major emphasis in the United States was on commercial development. In the late 1840s five NewYork newspapers organized the Associated Press to get pooled telegraphic reports of the Mexican War. In England, Julius Reuter,
1.4 Early ElectricalCommunication
11
who began a “pigeon post” in the 1850s to provide market prices to businessmen, adopted telegraphy and expanded hisreports into a general news service for newspapers. In Europe, development of land telegraphy followed a different path. Governments retained controlling interest in telegraphy and subsequent means of telecommunication. They placed military and political uses first and often postponed commercial telegraphy. The telegraph and therailroads intertwined to spearhead the economic development of the United States. The telegraph needed a right-of-way between centers of population while the railroads needed some means of dispatching trains; both needed agents or operators. Their problems were solved by combining the jobs of station agent and telegraph operator in one person who handled railroad service messages and public messages alike. This system almost doubled the freight-handling capacity of the railroad and substantially reduced thecost of telegraph operators. As the numberof competing railroad companies declined, so did the number of telegraph lines runningbetween the samepairs of cities.
-
1.4.2 Submarine Cables
Although the telegraph could deliver a message almost instantaneously, its capability stopped at the ocean’s edge. The first underwater cable, laid in 1850 across the English Channel, lasted only a short time, since its wire bundles were highly susceptible to damage from fishermen, dragging anchors, and corrosion and short-circuiting by sea water. In 1858, after several short cables had been installed successfully, wealthy American businessman Cyrus W. Field organized the first of several transatlantic cable layings. The first between England and the United States lasted about six months and wasunreliable. In 1866, Field and hisassociates laid a new cable from Ireland to Newfoundland that worked. Transmission speed was only six words a minute, but thesuccess of this transatlantic cable inspired installation of cables between other continents, and spurred commercial and diplomatic communication. The reliability of and the newmodulation techniques for underseas cable have continued to make it attractive, within 1999 alone-enough underwater cable laid to encircle the globe five times! Although pairs of nations hadpreviously reached bilateral agreements, by 1865 there was enough general need and basis for agreement on operational techniques and finances for an International Telegraph Convention to meet in Paris. The convention agreed on priority of messages (governmental, then telegraph administration, and thencommercial or private), uniformity of rates (set by distance), methodsfor settling accounts between countries, and meetings scheduled to update regulations. This gathering was the genesis of the International Telegraph Union-now the International
12
Chapter 1 TheContext of Broadcasting
Telecommunication Union (ITU), a world organization under the United Nations that allocates radio spectrum space and sets standardsfor international telegraph and telephone. 1.4.3 The Telephone
anmm
The early electrical telegraph had several drawbacks: It could transmit only a few words per minute, it required trained operators, it conveyed emotion or emphasis poorly, it required a new alphabet (Morse code), and it was one-way. If the humanvoice could be transmitted in a two-way system, all of these problems would be overcome. On February 14, 1876, Alexander Graham Bell, a successful teacher of the deaf, filed for a patenton such a device. He demonstrated his invention at the Philadelphia Centennial Exhibition of 1876 and attracted considerable attention. The first telephone system, with 2 1 subscribers, was established two years later in New Haven, Connecticut. Although Bell benefited financially, his financial backer and father-in-law, Gardner Hubbard, and his excellent business manager, Theodore Vail, a distant cousinof Morse’s backer, had control. After an unsuccessful attempt to sell the invention for $100,000 to Western Union in 1877, Bell and his associates redoubled their efforts to fight patent infringements and conflicts, purchase improvements on the telephone, and put systems into themost populated parts of city after city. Competition came from numerous small companies, many with a cavalier attitude toward the patent system, and from Western Union. This immensely wealthy and powerful company, realizing its earlier mistake, had set out to establishrival a telephone company based on other patents. However, when financial baron Jay Gould threatened to establish a rival telegraph company in association with Bell’s company in an effort to depress Western Union’s stock and then buy it cheaply, Western Union hurriedly made peace with the Bell interests in 1879, giving up all ideas about competing in the telephone field in exchange for the Bell interests staying out of the telegraph industry. By 1909 the Bell system was so successful that the American Telephone and Telegraph Company (as it had been named in 1885) was able to purchase Western Union-only to have to resell it in1914 because of the antitrust laws. In its first 10 years, AT&T made some of the corporate decisions that guided it until itwas split intoseveral parts in 1984. Since it could expect competition when Bell’s basic patents expired in 1894, AT&T decided to initiate research to improve the telephone in small but patentable steps, to purchaseinventions by independent inventors-such as Michael Pupin’s loading coil, which made long-distance telephony practical-and to concentrate on a partof the industry that, at the time, only one company could feasibly operate-long distance communication. While an estimated
1.4 EarlyElectricalCommunication
13
6,000 firms battled in the late 1890s for local telephone business, AT&T worked to create transcontinental telephone service, which they accomplished in 1915. (Until stoppedby a threatened antitrust action just before AT&T also bought many local competitors.) World War I, This philosophy is still evident. AT&T has made large concessions to the antitrustlaws-relinquishing royalties in 1956 on all patents, including the transistor-in order to keep control of its manufacturing subsidiary, Western Electric. Even when the court-approved 1984 “divestiture” led to the endof the integrated “Bell System” consisting of research, manufacturing, and long-distance and local telephone service facilities owned by AT&T, the company tried to carve out a niche for itself (in information transmission, combining long-distance communication and computers), leaving the aging local systems to the seven spun-off regional Bell operating companies and telephones to be made and soldby anyone. By 2000, AT&T was the nation’s largest multiple cable systems operator. Although what originally were the local Bell companies still serve less than 90% of the nation’s land line telephones (and a much smaller proportion of cellular phones), keeping them reasonably safe from the antitrust laws, it is in the long-distance business that competition has recently been most fierce. Fighting hard are such giants as AT&T,MCI, and Sprint anda host of small companies that lease facilities in bulk, then resell them at a discount. Recently, the regional Bell companies have agitated for permission to get into the long-distance business, and prepared for additional local competition from resellers and from new antagonists such as cable television operators, and some have merged in order to enhance theirstrength. AT&T also searched for a “natural monopoly” in broadcasting. During the 192Os, when it could not maintain a monopoly of commercial “radio telephony for hire” or “toll broadcasting,” it sold its stations to competitors; in the 1950s when it no longer sold the lion’s share of transmitters and speech-input equipment, AT&T dropped that businesscompletely. Domestic communications satellites have taken over station interconnection for the broadcasting networks, forcing AT&T into the competitive mode it avoided for more than a century, Although most European countries placed telephone and telegraph within a government department, usually the post office, in the United States private ownership of the telephone was challenged only once. This when the federal government took over teleoccurred during World War I, phone, telegraph, and railroad companies to assure the priority of military operations andwar production during a time of communication and transportation shortages. Some earlier proposals for government ownership of electrical communication, notably by Postmaster General Burleson in 1914 and an earlier postmaster general in 1872, got nowhere. This wartime takeover did not hamper the operationsof the Bell System, however, since all details and virtually allpolicy were left to Bell executives, who inaugurated (as federal policies) installation and other fees that state regulatory
14
Chapter 1 TheContext of Broadcasting
agencies previously had blocked. After the war, although the Navy still wished to control wireless, AT&T easily retrieved its facilities. 1.4.4 The Electrical Manufacturing Industry
The successful development of telegraph and telephone in the United States led to near-monopolies by Western Union (telegraph) and AT&T (telephone). At the same time, as electricity was used more after 1880, companies appeared that manufactured electric lights, electric motors, and the like. The most important electrical manufacturing firms were Westinghouse, started in 1886,which brought the alternating current power system to the United States, and General Electric (GE), formed in 1892 as an amalgamation of two older firms, including ThomasEdison’s. After several years of competition and patent arguments, GE and Westinghouse agreed in 1896 that GE should receive two-thirds of the business growing from their shared patents. This early patent “pool” agreement was an important precedent for the radio manufacturing industry. Another important firm was Western Electric, which specialized in telephone communications equipment and was taken over by AT&T in 1881. All these firms were interrelated, not necessarily through ownership but because the manufacturing companies provided equipment and services to communications organizations while the latter, fed by increasing public use of their facilities, provided a demand on the electrical manufacturing companies. Each was so wrapped up in its own business that research was limited to perfecting existing products and little time, personnel, or money was spenton new systems such as wireless-as discussed in chapter 2.
Radio broadcasting was a new electrical communications concept. Telegraph, telephone, and early radio were only faster means of point-to-point or interpersonal communication. History tells us that nothing could beat the speed of the royal Incan messengers, until the horse was introduced to the Western Hemisphere. Similarly, the Pony Express lasted 16 months, until the transcontinental telegraph was completed. The limits of the telegraphits low words-per-minute capacity and need for trained operators-were “impassable,” until the innovation of the telephone permitted rapid twoway conversation by distant laymen. Radio removed our dependence on wires, and finally “broadcasting” presented a new concept, just as movable type had when it bypassed the barrier-slow production of copies-of hand-lettering, and madewidespread literacy worthwhile. Americans living when radio was newfelt that it was a miracle-a cheap and pervasive national mass medium.
1.5 Broadcasting: A New Mass Communication Medium
15
Although radio seemed to spring up full-blown in America in the early 1920s, amateur operators had been transmitting and listening to speech and music since 1906. A man named Charles David Herrold may have first envisioned the concept, in 1909, and RCA’s David Sarnoff claims to have proposed a “radio music box” a few years later (see pp. 46-47). After commercial broadcasting started in 1922 and networks were fully established in 1926, everyone agreed that radio was truly a mass medium: a few programming sources (networks) geared to reach as large an undifferentiated audience as possible, for the purpose of purveying goods and services through advertisements. Even when, in the late 1950s and in the 1960s, radio networks virtually disappeared, and radio became a local medium serving specialized groups while television took over the national business, radio remained a mass medium. But just what is broadcasting? It clearly has a different method of delivery from the other media of mass communication-and often a different message to deliver. According to Section 3(0) of the CommunicationsAct of 1934, broadcasting is “the dissemination of radiocommunications intended tobe received by the public, directly or by means of intermediary relay stations.” The three essential elements here are “radio communication” (meaning use of wireless electromagnetic radiation-see Appendix B): “intended for” (meaning that everyone “whom itmay concern or interest’’ is welcometolisten in, distinguishing a broadcast from theprivate interchange of telephone, postal service, e-mail or even CB radio); and “the public” (including the merely curious). Although broadcasting is more fully discussed on pp. 63-69, we should establish here that broadcasting signifies transmission of music, speech, and/or pictures in forms that thegeneral public can understand, on a regular and announcedschedule, on a frequency band for which the general public has receivers, by a station licensed by the government for that purpose (if licensing was then required). Broadcasting is an industry, an institution, and a process, and we intend to examine all three. The system of broadcasting in theUnited States is virtually unique in the world (not necessarily better; simply different), and this book explores how thesystem is unique, how it got that way, and why. As recently as 35 years ago, for example, the number of radio stations supposedly was limited by “technology” (the more stations, the more interference), or, more likely, by economics (only networks could finance expensive programming, by spreading costs over many stations),and politics (ruralareas need clear-channel stations, and rural areas elect more than their share of legislators). We ignored the technological barriers-who cares about long-distance interference if the audience lives within a score of miles of the transmitter? The economic “necessity” of networks disappeared with the development of less expensive but still effective local program formats. The political “imperatives” of radio allocation shifted significantly as a result of “one man, one vote” Supreme Court decisions.
16
Chapter 1 TheContext o f Broadcasting
Television might some day travel the same road-but it also might follow a different path. VCRs and cable are already parts of the industry and broadcasting from satellites that cover most of a continent is growing stronger. The barriers that still face television are the speed of light, the ranges over which our senses operate, and the number of hours in the day. Can these be any more impassable than the walls that usedto hamper older forms of communication? For instance, although propagation speeds may be limited, research indicates that “compression” of the television picture and sound is possible without loss of comprehension; a form of “fast motion.” All of the strictly-entertainment media might be replaced in an Orwellian future by direct electrical stimulation of the brain, rather than by the slower and more imperfect use of sensory inputs. Telepathy is now a science-fiction concept, as were television and theatomic bomb; but we all know how many hours of subjective time our minds can cover in a few seconds of dreaming. More likely is the possibility of completely random access to nearly unlimited amounts of television programming through the use of computer scheduling, multiplexed additional channels (wired or broadcast), multiple-pickup playback video disc recorders in the stations, and inexpensive home VCRs, DVD players, and computers. The limits we live with are in our own minds. By learning how previous limits were breached, perhaps wecan look more wisely at the problems of today, such as fairness, access, ever more channels, fewer ownership entities, limits on the number of on-air channels, deregulation, direct broadcast satellites, audience fragmentation, high-definition television, pay-TV, indecency and violence, automation, and advertising and programming standards.In order to affect the futurewisely, we must become aware of past principles, trends, decisions, and events. New ways of applying or modifying old solutions may change the ground rules of broadcasting as completely as the vacuumtube supplanted the old rotary-generator transmitters or the iconoscope removed the mechanical limitations of the television scanning disc. It may take time-3-D color TV was first shown in1 9 2 6 b u t technology, structure, function, and regulation will adapt when and if the will, desire, and imagination are ready for another chapter in the unfinished story of broadcasting.
Selected Further Reading (APhabeticaZ within topics. For@ZZ citations, see Appendix D.) Boorstin (1973) provides excellent background context for American social history. Beniger (1986) focuses on the impact of communication, as does Czitrom (1982). Good studies of the rise of popular culture are Csida (1978), the three-volume Inge (1979-81), Hogben (1949), Nye (1970), and Toll (1982). Useful generalmedia history is found in Baughman (1992), Blanchard (1998), Fang (1997), and Hudson (1987).
Selected Further Reading 17
For various print media, see Desmond’s four-volume study of international media to 1945 (1978-84), Lee’s classic 1937 study of newspapers, Peterson (1964) on magazines, and Tebbel(l975)for books and periodicals. The growth of news agencies is reviewed in Blondheim (1994), Gramling (1940), Morris (1957), Rosewater (1930), Schwarzlose (1989,1990), and Unesco (1953). Contextual surveys of telecommunication technology and policy include Brock (1981), Collins (1977), Davis (1981-85), Dummer (1997), Harlow (1936), Herring & Gross (1936), Lacy (1996), Lebow (1995), McMahon (1984),and Winston (1998).For the telegraph, see Coe (1993), Fahie (1884), King (1962), Marland (1964), Standage (1998), Thompson (1947), and Wilson (1976). Standard biographies of Morse were written by Mabee (1943) and Prime (1875). Submarine cable history is described in Bright (1898), Carter (1968), Clarke (1975), Coates & Finn (1979), and Dibner (1964). Telephone history is described in Boettinger (1983),Brooks (1976), Bruce (1973), Coe (1995),Danielian (1939),FCC (1939),Henck & Strassburg (1988), Pool (1977), Rhodes (1929), Smith (1985), Temin & Galambos (1987), and Young (1991). Sterling & Shiers (2000) provides an annotated bibliography of all of these technologies, including radio and television.
". ..Signor Marconi gave
a practical demonstration which showed that even in its present state the instruments can be made useful in signaling between ships and shore, and there is a certainty of working under all conditions of weather which isnot common to any other mode of commuLt. G. W Denfield, U.S. Navy, in report to Secretary of nication at sea."the NUT, 1899
A
Guglielmo Marconi with early equipment. Marconi CornponJr,Ltd.
19
Chapter Outline 2.1 Fundamental Wireless Discoveries 2 1 2.1.1 Conduction and Induction 22 2.1.2 Radiation 27 2.1.2.1 Marconi 28 2.1.2.2 Fessenden and the First Broadcast 30 2.1.2.3 De Forest 32 2.2 Improvements in Wireless 33 2.2.1 Transmission 33 2.2.2 Reception 36 2.3 MaritimeApplications 38 2.3.1 Wireless and Commercial Shipping (to 1914) 38 2.3.2 Wireless and the U.S.Navy 4 0 2.4 First Attempts at Regulation 4 1 2.5 The First Broadcasters 4 4 2.6 Radio at War 4 7 2.6.1 Radio in World War I 48 2.6.2 The First Patents Pool 49 2.7 The Stage Is Set 50
Selected Further Reading 51
20
B
roadcasting’s earliest development was slow. Ithad many technological challenges and required the applicationof fundamental wireless discoveries. Although 30 years passed between the first theorizing about wireless in 1865 and Marconi’s first practical system experiments, our concern is mostly with the subsequentrise of wireless communication from an isolated invention to a widespread, practical innovation. Even after it was in use, people in many nations sawit only as a point-to-point medium that could straddle natural barriers and operate more cheaply than thewire telegraph or telephone, a goal that has being met only in thelast few years with the development of cellular and PCS (personal communication service) telephones. Few then thought that the absence of privacy protection from listeners-in would one day become one of radio’s strongest advantages. As radio’s military and commercial values became obvious, major countries triedto develop their own systems so as not to have to depend on others in emergencies. This competition increased the importance of patents because by controlling essential patents one country, firm, or even person could dominate broadcasting’s development for years. The different systems that succeeded have subtle and complicated distinctions, but in this chapter we concentrate more on theimpact and application of wireless, or radio, than on its technical intricacies. More technical material is located in the glossary in Appendix B.
2.1 FundamentalWireless Discoveries m
As with many other 19th-century inventions, radio developed in widely separated places when the conditionswere right. Typical of that period was the importance of the individualinventor or innovator who, unlike the20thcentury research team working in industrial laboratories, borrowed one element, added another, and was frequently ignorant of work done elsewhere. The invention or innovation (an invention introduced commercially as a new or improved product or process) was often the result of luck or curiosity rather than systematic scientific research applied to a specific problem. In retrospect, wireless, or radio, is a logical extension of wired telegraphy and telephony. Wires were easily broken and hard to string between distant communities or over physical obstacles. With wireless techniques, communication could take place as rapidly as with wired devices but did 21
22
Chapter 2
Prehistory of Broadcasting(to 1919)
m Flow Chart on Invention of Radio and Television This chart traces the development of radio and television, showing how broadcasting was the resultof experimentation and research by many scientists and inventors. It was drawn by Max Gschwind for Fortune magazine (December1954)and is reproduced here by permission.
not require a physical connection. Distant locations could be contacted quickly, relaying might be unnecessary, and shipscould keep in touch with land. The penalty for this was that a radio message would go out in all directions at once and could be picked up by anyone who cared to listen. A wired circuit, on theother hand, was relatively private. 2.1.1 Conduction and Induction W
There are three important kinds of electrical transmission: conduction, induction, and radiation. Conduction means the sendingof impulses through a medium capable of transmitting electricity-a wire, salt water, or the earth. Induction refers to the appearance of a current in one circuit when it is placed near another, already charged, circuit, without a physical connection. Induction can cause cross-talk on a telephone circuit, and
2.1 Fundamental Wireless Discoveries
23
Photo credits: Volta, Oersted, Henry, Amptre (Culver Service); Faraday (Associated Press); Ohm (Brown Brothers); Musschenbroek (fromGrote Nederlanders by Dr. G. C. Gerrits, E. J. Brill, Leiden, 1948); photo on right page (Andreas Feininger, Life).
induction coils permit the recording of telephone conversations without wire hookups. Radiation means the generation of electromagnetic waves, generally sent out from an antenna. The radio transmissions of today use this last method, whichbecame practical just before 1900. A Spaniard, Salvd, proposed using sea water as a conductor in 1795, 50 years before the first practical wired electrical telegraph system. In 1838 Carl August Steinheil, a Munich physicsprofessor, proposed using railway rails as conductors and then experimented with the bare earth, sending messages for 50 feet. Morse, after constructing his wired system, suggested using water to extend land lines. Some of his assistants succeeded in receiving water-borne electrical signals over a distance of two miles. our knowledge of transMany other experimenters contributed to mitting electricity. One of the most resourceful was Mahlon Loomis, a Washington, D.C., dentist who succeeded in 1866 in sending signals between mountainsnearly 20 miles apart in Virginia. In 1872 Loomis received
Chapter 2
24
m
Prehistory of Broadcasting(to1919)
Two Early American Radio Inventors
The Loomis patent of 1872, the first
wireless patent grantedin the United States.
UNITED STATES PATENT OFFICE. MAHLON LOOMIS, OF WASHINGTON, DISTRICT OF COLUMBL4. IMPROVEMENT IN TELEGRAPHING.
8peoi6clrtionforming part of Lettera Patent No. 129,971, doted Jnly 30,1872.
To all whom i t may concern:
with the atmospheric stratnm or ocean overlyBo it known that I, MAHLON Looms, den- ing local disturbances. Upon these monntnin-
tist,oP Wmhingtou, District ofColumbia,hnre tops I crcct suihble towers nud apparatus to inreutetl or discovered ta new and Improved attract the electricity, or, in other word@,to nIodeofT~le~phingnndotaencrntirtgLight, disturb theelectrical equilibrium,and thusob. Upat, and Motive-Power; and I do horeby de- tain n current of electricity, or sl~oclcsor pnlclitre that the following is B full description sntions, which traverse or disturb thepositive electrical body of the atmospltere rtbove and thcreof. The natnreof my inreutiou or discovery con- betwceu two given poiut,s by cornpunicnting electrical body in the earth &ts,in geuernl terms, of utilizing natural elec- it to the uegatire tricity :md establishing an electrical currcut or ticlow, to form the c1cctrica.l circuit. circuit for telcgmphic and other purposeswith- T deem it espedieut to use an iusulntcd wiro out the aidof wires, artificial batteries, or ca- or conductor as formiug B part of the local apbles to forul such electrical cirouit,aud get com- paratus nncl forcontlucting the clcct.ricitydowu xnnniante from one contiucnt of‘ the globe to to the foot of the mouutaiu, or as far nnuy as ma.y be conrenicut for n tolegraph-omce, or to another. To cnable others skilled in electrical sciencentilize it for other purposes. I do not claim nt~ynew keyboard nor auy to make use of n ~ discovery, y I will proceedto clescribc tho nrrangcmeuts and mode of oper- new nlpllsbet or siguals; I do not claim auy new register or recordiug instrument; bllt ntiotl. What I claim as m y inventiou or discovery,. tbe doublewire, As indispensingwith (which wns first used in telegraphing,) aud and desire to secure by Letters Pntcnt, isThe utilization of ustural ‘e1cctricit.y from lonliiltg use of but one, 8ubstit.utirtgtho earth the oppositc.poiltstcatl of a airo tofonn.onc-llalf tho circuit, elevated points by connecting so I tow dispense with both mires, using the Inrity of the celestial and terrestrial bodies of carth as one-half the circuit and tho continu. elcctricity at’different points by suitable connus electrical clenwut far above the earth’s ductors, and, for telcgmphic purposes,relying surface for tltc other pnrt of t h o circuit. I al- upon the disturbanccproduccd intltc two elecso dispense with all artificial batteries, but nse tro-opposite bodies (of the earth aud atntosthe frcc electricity of the atmosplwre, co.oper- phcre) by an interrnptiou of the coutinuity o f atiugwitll thatof thecarth, to supply the &c- ONC of the conductors froltlthe electrical body trical clgnatnic force or curreut for telegraph- beingiudicntcd upon its opposite or corrcing and forotlter useful purposes,suchas light, spouding tcrminos, and thus producing a, cmcuit or cornnluuicatiou bctween tho two with. hqat, nud motive power. A s atn~os[)l~crieelcctrieit.y isfonnd moreBud out nu artificial battery or the furthcr use of more abundant wlrcn moisture, clouds, heated wires or cables to connect the co-operating currents ofair,aucl othcr dissipatinginfluences stations. MAHLON LOOBPIS. are lclt bclow and 8 pcatcr altitudo attailwl, Witnesses: my plan is to scekas highanelevation as prac. BOYDELIOT, ticable on the tops of high mountaius,and thus c. 0.WILSON. penetrate or establish electrical connectioll
the first American patent for wireless and thenext year persuaded Congress to grant his company a federal charter. However, the financial panic of 1872 dried up potential sources of investment because the Chicago fire of 1871 had bankrupt some of his backers. Although no commercial system using the Loomis technique was successful, as late as 1924 the US.Signal Corps still recommended as a “field expedient” receiver his remarkably simple apparatus involving kite-flown aerials with a galvanometer in series with
2.1 FundamentalWirelessDiscoveries
25
A diagram from 1908 a patent of Nathan Stubblefield showing how his system would work near a waterway (other diagrams applied to railroads and roadways). PATENTED MAY 12, 1908.
No. 887,357.
N. B. STUBBLEFIELD. WIRELESSTELEPEONE. APPLIOATIOI
FILEDAPB. 6. 1001.
the aerial and ground. Another early experimenter, William Henry Ward of Auburn, New York, patented a “telegraphic tower”-looking remarkably like the early commercial space satellite communicationsreceiving station at Andover, Maine-in 1872, which reportedly could sendsignals to many receiving antennas if all were “connected to the earth.” Most early experimenters believed in theconcept of “ether” or “aether” as a medium (thought to be part of the atmosphere, hence “airwaves”) that
26
Chapter 2 Prehistory of Broadcasting(to 1919)
existed specifically to transmit electrical impulses. They thought that if they could successfully tap it and insert an impulse, the ether would carry the impulse for great distances. The idea of the ether, defined later and circularly as “that which carries radio waves,” apparently served as a mental crutch, because it hung on in physics and radio engineering literature until the end of the 1930s. In the early 1870s,Elihu Thompson and Thomas A. Edison individually began to detectsparks created by generators some distance from the measurement point. Edison in 1885 took out his only patent in wireless foran induction system that used antennas to get abovethe conducting earth. A year later, Professor Amos Dolbear of Tufts College in Massachusetts tookout a patent for his “electrostatic telephone,” a system of telephonic (voice) induction communication using a tin roof or a wire hanging from a kite to induce current into the “ether.” Some energy may have been radiated from his antenna as well, but Dolbear had nogood meansof detecting the weaker radiated waves, even though they could reach a greater distance. A contemporary Harvard physicist, John Trowbridge, proposedinductive methods to reach ships at sea. Another American inventor who attempted commercial application was Nathan B. Stubblefield of Kentucky. Havingread about recent electrical radiation experiments in popular science magazines, he started experimentation in the late 1880s.In 1892 he demonstrated ground conduction voice signals over several hundred yards. Later, although possibly not recognizing that there were three distinct types of transmission, he switched to induction and communicated from the shore to ship stations on lakes or rivers. Stubblefield was particularly interested in relatively short distance communication with moving vehicles. Like Loomis,he got caught in a commercial scheme that, in this case, was in the stage of nationwide-publicity and funding before Stubblefield pulled out,claiming that his business partners were making crooked deals, cheating and using him as a scapegoat. Although he was a prolific inventor, even patenting the tin-cans-connectedby-string telephone, Stubblefield eventually died of starvation. It is not surprising thatcommercial attempts at harnessing both induction and nonmetallic earth and water conduction failed. There were variations in conductivity, losses caused by thesignal going in all directions at once, and limits to the amount of power that a sending coil of reasonable size could handle. Induction and non-metallic conduction could not hope to compete with thewire telegraph and telephone except possibly for short distances to and from moving vessels or vehicles. Researchers also had difficulty in demonstrating reliability of their signals, or even any results at all. Typically, they used galvanometers to register that a signal had been sent or received, but these meters could easily confuse interpreters, react to other electrical impulses, like lightning flashes, or fail to register adequately the minute amountsof current transmitted. Furthermore, a radiation componentin many of the inductive experiments may have accounted for much of whatever success they had.
2.1 Fundamental Wireless Discoveries
27
2.1.2 Radiation lRIl
The development of radiation for wireless communication rested on a firm theoretical framework. The major findings of Scottish mathematician and physicist James Clerk Maxwell, published in 1864,suggested that a signal could be sent out electromagnetically that would be completely detached from the point of origin. Using mathematical equations, he demonstrated that electricity, light, and heat are essentially the same and that all radiate at the samespeed in free space. German physicist Heinrich Hertz demonstrated the correctness of Clerk Maxwell’s theories in a series of experiments in 1887 and 1888.The fundamental unit of frequency, the Hertz (Hz), is namedfor him. Hertz measured the speed of electromagnetic radiation (the speed of light), the length of various waves, and similar parameters but didnot promote the use of wireless for communication. His crude but reasonably effective detector of radiated waves was a device that allowed an electric spark to jump a small gap between two charged steel balls when the receiving coil was placed facing a nearby transmitting spark coil. Hertz never achieved much range, and this detector was superseded by the much more efficient invention of French physicist Bdouard Branly, in the early 1890s.His “coherer” consisted of a glass tube filled with metal filings that cohered or packed together and permitted anelectrical current to pass whenever a wireless signal was being received. Although the coherer received very weak radiated currents, it had to be tapped mechanically after each pulse in order to restore the filings to their prereception looseness. In the late1890s,English physicist and author of resonance tuning that allowed Sir Oliver Lodgeworked out the principle both receiver and transmitter to operate on the same wavelength or frequency without dissipating the signal broadly over the spectrum. In addition to Hertz, Branly, and Lodge, we find numerous persons whose work, while not universally recognized, either led or could have led to a practical wireless system. Among the most prominent was Alexander Popoff. This Russian professor at the University of Kronstadt developed a better coherer and vertical antenna around 1895 and noted the connection between Hertzian waves and static, but he wantedto develop a detectionprediction system for thunderstorms rather than a system of communication. ( A n analogous system for the purpose of detecting tornados by their noise signature on television channel 2 was tested in the United States in the early 1970s.) Popoff, whom Russia considers the inventor of radio, worked extensively in wireless and made equipment for the Russian Navy. The most important electrical/wireless inventor of that time whose name is not a household word is Nikola Tesla. Tesla was known to the public chiefly for his showoff “taming” of lightning, but the electrical power transmission industry knew him chiefly for his development and championing of alternating current. Strangely, although Edison’s direct current (DC) system lost the technical war to Tesla’s alternating current
28
Chapter 2 Prehistory of Broadcasting(to 1919)
(AC) system, apparently Edison won the public relations war. Born in Croatia, Tesla spent much of his career working on AC equipment for Westinghouse-but he also worked on radio, commenting, when he heard of Marconi’s 1901 sending of the letter “S” across the Atlantic, that “He is using 17 of my patents.” These patents, starting with thefirst in 1893,fared well in the courts-one, filed in 1897 and granted in 1900,was heldby the U.S. Supreme Court in 1943 to have anticipated Marconi’s work-but Tesla never was deeply involved in innovating radio andnever got full creditfor his work. 2.1.2.1 Marconi
The most widely known inventor-innovator in the field of wireless, the man most historians credit with inventing radiotelegraphy, is the Italian Guglielmo Marconi. Marconi was interested in making radio work and only secondarily in how it worked. In 1894,at the age of 20, he read of Hertz’s experiments and aimed to apply this knowledge to communication. Supported by a wealthy father, Marconi was able during the next year to improve the Hertz transmitter, to note that a signal sent from an elevated antenna wouldgo farther, to use a ground connection as well as an antenna, to make the Branly-Lodge coherer more sensitive, and to add a telegraph key receive two milesor more on and batteries. By 1896 he could transmit and his father’s estate near Bologna. It was obvious to his family that the young man would shortlydevelop a commercially valuable, wireless telegraphy system. After the Italian government expressed no interest, the family decided to sendhim toEngland, which, as the most important naval and maritime power with its empire and control of most of the world’s cables, was the country most concerned with development of long-range communication. At age 22, Marconi arrived in London. His Irish-born mother’s contacts carried him to the headof the telegraph system of the British Post Office, William Preece, who had done some wireless experimentation himself. Preece took the young Italian under his wing and helped him to improve his system and show it to important persons in British finance and government. Marconi’s work progressed rapidly. Soon, his signals reached eight miles or more; in 1899 he spanned the English Channel, and two years later he transmitted the letter “S” in Morse code across the Atlantic to Newfoundland. However, wire telegraph interests in Newfoundland invoked their monopoly franchise and forced Marconi to dismantle his station. Then, incorporating Lodge’s tuning principle into his apparatus, Marconi achieved a standard of reliability that overcame the skepticism his “miraculous” invention hadprovoked. Actually, Marconi may not have invented anything, asothers had, but he assembled the fruits of many lines of development into a working apparatus.
l Winds, as much as or more than distance, nearly undid Marconi’s hopesof sending a wireless signal across the Atlantic Ocean latein 1901. First, a gale nearly wrecked the large Poldhu station in Cornwall, England. Then,just two months later, a similarstorm demolished thenew Marconistation onCape Cod, threateninga longpostponement of the tests. Then, with the Poldhu apparatus jury-rigged,Marconi and his assistants sailed for Newfoundland, which was ina speech somewhat closer,inthe deadof winter. Marconi described what happened given a year later:
m
Marconi and theRansatlantic “S”: l901
The first experiments were carried out in Newfoundland last December, and every assistance and encouragementwas given me by the Newfoundland Government. Asit was impossible at that time of the year toa permanent set up installation with poles, I carried out experiments with receivers joined a vertical to wire about 400 ft. long, elevated by a kite. This gave a very great deal of trouble,as in consequenceof the variations of the wind constant variations in the electrical capacity of the wire were caused. My assistants in Cornwall had received instructions to send a succession of “S‘s,” followed by a short message at a certain prearranged speed, every ten minutes, alternating with five minutes’ rest during certain hours every day. Owing to the constant variations in the capacity of the aerial wire it was soon found out an ordinary that syntonic receiver was not suitable, I, therefore, tried varialthough a number of doubtful signals were at one time recorded. ous microphonic self-restoring coherers placed in the secondary circuit a transformer, of the signals being read on a telephone. With several of these coherers, signals were distinctly and accurately received, and only at the pre-arranged times,cases in many a succession of “Ss,”being heard distinctly although, probably in consequence of the weakness of the signals and the unreliability of the detector, no actual message be could deciphered. The coherers which gave the signals were one containing loose carbon filings, another, designed by myself, containing a mixture of carbon dust and cobalt filings, and thirdly, the “Italian Navy Coherer,” containing a globule of mercury between two plugs. The resultof these tests was sufficient to convince myself my and assistants that, with permanent stations at both sides of the Atlantic, and by the employment aoflittle more power,messages could be sent across the ocean with the same as across facility much shorter distances.
...
Source: G. Marconi, “The Progress of Electric Space Telegraphy,” delivered Friday, June 13,1902, before the Royal Institution, London. Reprinted in Eric Eastwood (ed.) Wireless Telegrupby (New York: John Wiley, 1974), pages 72-88, at page 86. Courtesy of Applied Science Publishers Ltd., England. 29
30
Chapter 2
Prehistory of Broadcasting[to 1919)
Marconi managed to attract excellent business and technical managers and advisers, who put together the first wireless firm that could cultivate a profitable market. His company, formed in 1897, was first called the Wireless Telegraph and Signal Company but was changed in 1900 to Marconi’s Wireless Telegraph Co., Ltd., or simply “British Marconi.” Together with anAmerican subsidiary formed two years later (and a Canadian subsidiary organized shortly after that), itquickly became dominant in both marine and transatlantic communication, remaining so until after World Nobel Prize War I. Marconi, although something of a showman, winning the for physics in 1909, was primarily interestedin experimentation, and helet his well-qualified advisers and staff run thebusiness. The companies concentrated on commercial applications of wireless telegraphy, as well as the British Empire’s worldwide communications needs.Although the Marconi companies had some difficulty persuading land-line telegraph companies and government administrations torelay messages from wireless receiving stations to their final destinations, wireless marine businessmade moneyat lower rates than thetelegraph cable-as early as 1910.
2.1.2.2
Fessenden and the First Broadcast
The first major experimenter in the United States to work with wireless was Reginald A. Fessenden, a Canadian with far less business acumen than Marconi and a temper that repeatedly alienated his backers. He became a professor of electrical engineering at the University of Pittsburgh after having worked for Edison and with the U.S. Weather Bureau on a system of wireless transmission of forecasts. He wanted to develop a workable system of transoceanic wireless using continuous waves rather than Marconi’s spark gap technique. Fessenden believed that this method would provide the power necessary for more effective Morse code transmissions and simultaneously create the quieter carrier wave required for voicetransmission. In 1900, Fessenden asked GE to make him a high-speed generator of alternating currents, or alternator, to useas a transmitter. The electrical manufacturing firms accepted special orders for machinery from communications inventors and organizations, and this was the first major request for wireless apparatus. The customer received the essential equipment, and the manufacturing company made a profit and keptthe ideas. It took three years for GE to design and deliver the first alternator to Fessenden. One ofGE’s engineers, E. F.W. Alexanderson, later perfected the alternator for GE, working along different lines from Fessenden. To fund his experimentation, Fessenden found financial backing for the National Electric Signaling Company in 1902. When the financial panic of 1907 wiped out an opportunity to sell thecompany to AT&T, Fessenden founded a company in which his original backers had no part. This led to lengthy law suits between backers and inventor and the eventual sale
Site of the World's First Voice and Music Broadcast: 1906 This is a ?ostcard viewof Fessenden's BrantRock station, showing the tall tubular tower with its 3djustable antenna at the top, and the two summer cottages that were converted livinto ing quarters and station headquarters. The tower was demolished1912 in or 1913.This particular card was mailed in July of 1907,just six months after the Christmas Eve oroadcast discussed in the text-and bears the handwritten commenton the back "Did you get my wireless?" I
No. 1691 Moore & Oibson Co., New-York. Oermany
31
32
Chapter 2 Prehistory of Broadcasting (to 1919)
of assets-primarily patents-to Westinghouse after World War I (see pp. 58-63). Thisfirm failed chiefly because of the backers’ lack of technical knowledge and understanding and the inventor’s difficult personality. Fessenden continued to contribute important technological developments for many years. He is most remembered for transmitting probably the first publicly announced broadcast of radio telephony, from his station at Brant Rock, Massachusetts, on Christmas Eve 1906. Following a private demonstration a month before, Fessenden alerted ships up and down the East Coastof the United States by wireless telegraphy and arranged for New York newspaper reportersto listen to Christmas the Eve broadcast, followed by one on New Year’s Eve. If one considers the “general public” of the day as those few who owned and used receiving equipment, mainly ships at sea, and the newspapers are serving as representatives of the public, then the 1906 transmissions were the first broadcasts. They were scheduled, they were for the general public, and listening requiredno special knowlof voice and music. The publicity they reedge of code since they consisted ceived included apocryphal stories of shipboard radio operators hearing angels’ voices. However, since Fessenden’s purpose was to make money from his inventions of long- and medium-range radio apparatus, he meant these broadcasts as publicity and notas a program service to the public. 2.1.2.3 De Forest P
Another important American inventor-innovator of radio was Lee de Forest. After earning a Ph.D. from Yale in 1899 with a dissertation on wireless telegraphy, de Forest worked briefly for WesternElectric. In 1900 and 1901 he developed his own wireless telegraphy system as competition for Marconi, who was then getting established. De Forest’s system was a technical failure but a publicity bonanza. He had arranged to sendby wireless the resultsof a 1901 yacht race from a boat to one of the smaller press associations, but a Marconi set on another boat created such interference that neither signal could get through. The newspaper publicity about the attempt, however, reached stock promoter Abraham White, who decidedto back de Forest. The De Forest Wireless Telephone Company was established in 1902, with de Forest concentrating on research and White promoting heavy sales of stock. Customers included the Army, the Navy, and the United Fruit Company, which needed radioto communicate with itsplantations in Central America, but sales were limited compared to stock sold and expectations engendered. As a result, in what was to become a common tale, the backers dissolved the company in 1907. Its assets were sold to the United Wireless Telegraph Company,in an effort to freeze out theinventor. Fortunately de Forest retained the rights to his most important invention, the Audion or triode vacuum tube (see pp. 34-36), and immediately set up his ownfirm, the De Forest Radio Telephone Company. During the
2.2 Improvements in Wireless
33
next few years, de Forest produced some spectacular publicity events: In 1907 he offered occasional telephonic, classical music broadcasts; in the summer of 1908, he broadcast a long phonograph record concert from the Eiffel Tower, with reception reported 500 miles away, although it wasmore reliable at 25 miles; in 1910 he broadcast Enrico Carusoin two operas from the Metropolitan Opera House in New York to perhaps 50 people. Financial problems, law suits, and criminal stock fraud charges forced de Forest to sell someof the Audionrights to a covert agent of AT&Tat a low price. Even so, the De Forest company went bankrupt in 1911, the first of his several business catastrophes. Clearly, de Forest was a better inventor than hewas as the “father of radio” is based businessman or scientist, and his reputation largely and deservedly on the Audion, which played a key role in electronics for several decades.
2.2 Improvements in Wireless With basic wireless principles known, attention turned, over the next several years, to perfecting both transmission and reception of radio signals. 2.2.1 Transmission IAA
Marconi’s early experiments and initial commercial installations used the spark gap transmission pioneered by Heinrich Hertz in the1880s.Although simple to construct, the spark gap transmitter required a large amount of power, radiated energy overa broad band, wasbulky, and produceda thunderous and disagreeable crash. Furthermore, it was either “on” or “off,” and it could not be modulated for speech andmusic. An early improvement on the spark gap transmitter was thearc. Danish inventor Valdemar Poulsen patented anarc generator in 1902 that, byusing a much narrower gap, could give a nearly continuous series of sparks, or arc. Because this system, called CW or continuous wave, was inherently more efficient forcommunication than was the spark gap, it could be used over longer distances. The Poulsen arc was normally a huge, expensive, water-cooled device, but it could be used in smaller shipboard installations. In 1909 Cyril F. Elwell purchased United States rights to it and set up the Federal Telegraph Company of California. In theyears just before American entrance into World War I, the U.S. Navy’s enthusiasm for this device resulted in contracts for several shore stations capable of long-distance communication with the fleet. The largest Poulsen arc station, started during the war but not finished until 1920,was at Bordeaux,France. This 1,000 kw station may have been the high point of trying to span the Atlantic with brute power. Federal’s Poulsen patents also were important immediately after World War I (see p. 6 0 ) , and the Poulsen arc remained in shipboard installations until the startof World War 11.
34
Chapter 2
Prehistory of Broadcasting (to 1919)
m Typical Early Wireless 'Ikansmitter Taken from a typical bookof the time intended for radio experimenters, this is both a drawing and an electrical schematic of a spark-gap transmitter [to the l e f t b t h e o f Hertz in standard wireless transmitter from the time the 1880s through World War I. That it was used for wireless telegraphy (code) and not telephony [voice and music) is evidentby the telegraphkey. With a battery, the system was self-contained, not requiring plugin sourcesof power. The receiving end might consist of a coherer (in the earliest days), and after 1900 a crystal on page 90. detector as is shown in the box I
Source: Yates and Pacent (1922), page 61.
The next major system, also developed before World War I, was the alternator, a Fessenden idea built to his specifications by GE. The first was delivered in 1906 and soon others followed. By 1911, after Fessenden had ended his association with his financial backers, GE engineer E. F. W. Alexanderson rapidly perfected ideas of his own. The Alexanderson alternator was a huge piece of machinery, very much like a power-plant generator but rotating much faster. Such high-speed rotation created complex mechanical problems, but by 1909 Alexanderson had developed a 100,000-cycle alternator that produced smooth, continuous waves. Although the first successful unit produced only 2,000 watts, higher power soon followed, and, by 1915, 50 kw units were being built. After long negotiations, GE and buyer British Marconi agreed that Marconi would have exclusive rights to use the alternator, and GE would have exclusive rights to make it. The first 50 kw unit was installed in 1917, and the following year a 200 kw unit, themost powerful and efficient transmitter in the world, was installed at New Brunswick, New Jersey. Usingthe government call letters NFF, the powerful unit announced President Wilson's Fourteen Points to theworld in 1918. The agreement between Marconi and GE was set aside during thewar but was to become instrumental in structuring American radio immediately afterward (see p. 57). The next means of transmission, still in use today, involved vacuum tubes.Althoughexperimentation began around1912,high-powered
2.2 Improvements in Wireless
35
m The Alexanderson Alternator Alternator developer E. F. W. Alexanderson is seen watching oneof the 50-kw alternatorsin action. These huge machines were the first reliable and effective means of long-distance and transatlantic communication by wireless.
Photo courtesy of General Electric.
vacuum-tube transmitters did not become common for more than a decade. Thomas Edison first noted that a heated filament gave off electrons-the blackening of a light bulb, or “Edison effect.” In 1904 John Ambrose Fleming, working for British Marconi, discovered that, sinceelectrons were negative, a positively charged plate could attract them. Therefore, electricity would flow whenever theplate was positively charged. When theplate was negatively charged, no current would flow. This made the tube a perfect
36Chapter
2
Prehistory of Broadcasting(to 1919)
one-way gateor valve that couldbe used to change alternating current, such as a radio wave, to pulsating direct current. Thisone-way flow,in a process known as detection, enabled one to hear an audible signal of dots and dashes or speech no matter how high above audible range the radio wave frequency was. Detection was essential to radio reception (see p. 37). De Forest inserted into the Fleming valve a third element, a grid carrying a slight charge that couldbe varied from neutral, which offered no hindrance to current, to slightly negative, which wouldblock current. This invention made a vacuum tube function as an amplifier, since thelarger current flowing from filament to plate would vary in step with a much smaller control current placing a charge on thegrid. (This is analogous to the small current surviving to the end of a wire telegraph line being used to trigger a relay controlling a much greater current). De Forest first used his triode, or Audion, as a n amplifier as well as a detector early in the century. AT&T engineers (see p. 32), improved the device, by using a high rather than partial vacuum, for instance, and put it to work as an amplifier on long-distance telephone lines, includingthe first transcontinental one in 1915. Because of their lighter weight and low current demand, vacuum tubes were used during World War I for specialized receivers and transmittersafter the Navy had agreed to indemnify manufacturers for patent infringement suits. This was necessarysince de Forest controlled the use of the third element (the grid) and Marconi owned therights to the first two elements (the diode, or Fleming valve). As early as October 1915,speech and music traveled from the U.S.Navy station at Arlington, Virginia (NAA), to the Eiffel Tower in Paris-using several hundred triodes connected in parallel. Even though this experiment showed theadvantages of the vacuum-tube transmitter, such as its freedom from problems of moving machinery and its small bulk and weight in relation to distance covered-even greater a relative saving than the transistor offered a third of a century later-the alternator still was used for code transmissions for many years. It was for the transmission of music and speech that the vacuum-tube transmitter became essential. 2.2.2 Reception
m
In 1900 the only device generally available for detecting radio waves was the Branly-Lodge coherer, as modified slightly by Marconi. It was verydelicate, permitted only slow message speeds because of its need to be tapped regularly between incoming pulses, occasionally gave false indications, and was not readily adaptable to tuning. Marconi’s 1902 magnetic detector was moresensitive, permitted reception over 500 miles by day and 1,500by night, but was hard to construct. During the period from 1903 to 1908, Fessenden developed an electrolytic detector that was used extensively until about 1913. This silent and automatic device needed no “tapper” since it used liquidrather than particles.
2.2
Improvements in Wireless
37
A completely different approach led to the development of the crystal detector around 1906 by Greenleaf W. Pickard and H. H. C. Dunwoody. Pickard had foundthat a crystal of silicon would allow electricity to flow in one direction. Using a small metal point, called a cat’s whisker, to find the most effective spot on thecrystal, he constructed a detector of radio waves far less expensive than previous models and just as effective. Dunwoody discovered that carborundum, an extremely hard, electrical furnace byproduct, also would workwell. By allowing electricity to flow in one direction only, it converted the very rapidly alternating radio-frequency wave into a series of pulses whosevariations in strength (amplitude) were in the audio-frequency range to which earphones and the human ear could respond. These detectors were the first solid state devices and, for several decades, the only ones. The crystal detector permitted hundreds of thousands of hobbyists and the general public to pick up radio signals-for the price of a pair of earphones and a few cents’ worth of wire, crystal, and cat’s whisker. The major drawbacks of the crystal set, which wasin general use for decades and whichhobbyists still use,were the difficulty of finding the right spot with the cat’s whisker (solved by permanently affixing the whisker at the factory and sealing the crystal in a case) and the inability of such a simple receiver to amplify the weakincoming signals. But as lateas World War 11, all shipswere required to have a crystal set for emergencies. In its original form, the Fleming valve (see pp. 35-36), which permitted electricity to flow in only one direction, could function as a detector. Although the %element de Forest Audion, patented in 1906 and 1907, also could be used as a detector, it did not improve detection per se. Its greatest value was in amplifying weak incomingradio waves. A radio-frequency amplification stageor two before the detector and anaudio-frequency amplification stage or two afterward would permit reliable reception of exceedingly weak radio signals. Eventually amplificationled to the use of loudspeakers instead of earphones. Manufacturing tolerances were at first loose, permitting inconsistent results that kept de Forest tied up inlawsuits for many years. Although associated circuitry was not well understood at the time, the invention of the amplifying triode proved critical to the future development of radio. At about the time de Forest sold telephonic rights to the Audion to ATSrT, Edwin Howard Armstrong, best known later as the inventor of FM, was working on circuitry that would use the Audion as a transmitter, as well as an amplifier and detector in a radio receiver of unsurpassed sensitivity and selectivity, Within a few months of each other in 1914, de Forest and Armstrong individually applied for patents on whatbecame known as the regenerative or feedback circuit. One of the longest and most bitter fights in radio history resulted from this conflict over patent priority, leading in 1928 and again in 1934 to the United States Supreme Court. Although the engineering community generally believed that Armstrong had a sounder grasp of the principlesbehind thecircuit than deForest had, the court held infavor of de Forest. Today, engineering texts and organizations
38
Chapter 2
Prehistory o f Broadcasting(to 1919)
generally give Armstrong credit for this crucial invention, but the law gave it to de Forest. The struggle embittered both men. The regenerative and superregenerative receivers were very sensitive, but required extremely delicate tuning to keep them from oscillating. Oscillation interference would not only prevent signals from being heard, but would disrupt reception elsewhere in the vicinity. The solution lay in the heterodyne receiver, patented by Fessenden as early as 1905, and inthe superheterodyne receiver, invented by Armstrongin 1918 and still in use today. These circuits were not practical until the development of the Audion. Besides detectingand amplifying incoming signals,it was necessary at the turn of the century to find a means of tuning to a single station so that stations on nearby frequencies could operate without interference. Techniques were being explored:Sir Oliver Lodgehad patented a system he called syntonic tuning as earlyas 1897, and, shortly afterward, both Marconi in England and John Stone Stonein America developed waysof selecting desired frequencies and rejecting unwanted ones through the principle of resonance. When a singer sings a note that hits the resonant frequency of a glass, acoustical energy is transferred so efficiently that it shatters the glass. In the same way, proper adjustment of the inductance or capacitance in a tuning circuit of a receiver-or transmitter, forthat matter-can set up a condition whereby only the desired or resonant frequency is picked up. As usual, a patent fight ensued, but both patents, and the lives of the two inventors, expired before the case was settled.
2.3 Maritime Adications Radio equipment for more than experimental purposes was first installed on oceangoing ships and in the shore stations that were built to communicate with them. Much as the telegraph had nearly doubled the railroad's freight-carrying capacity through more efficient scheduling androuting, so radio enabled ships to improve their cargo pickup schedules, to inform owners of their approach, and to learn of weather and other conditions en route. Over and above these commercial benefits, however, at least in the public mind, was the safety of lives and property at sea. 2.3.1 Wireless and Commercial Shipping(to 1914) n
As early as 1899 ships in distress were calling for help by radio. Marconi's reputation in Great Britain grew after the crew of a coastal lightship was saved from a severe stormin this way. In 1909 when the liner Republic collided with the Florida in a fog off the East Coast of the United States,the radio operator on thesinking liner stayed athis post and issued a call for help that resulted who died of a heart attack. In that same in saving all those aboard, except one year, passengers and crew on 18 other ships with radio installations were saved, thanks to radio, but those on manymore ships without radio were not.
2.3 Maritime Applications
39
Known to almost everyone today because of the popularity of the 1998 movie, one of the biggest peacetime maritime disasters was the sinking of the liner ntanic on her maiden voyage in April 1912. The ship collided with aniceberg and three hours later went to the bottom off the Newfoundland Banks together with 1,500 passengers and crew. Some 700 were saved by a ship that received 7Itanic’s wireless call for help 58 miles away, but a much nearer ship didnot assist because its only radio operator, after many hours on duty, was sound asleep when the messages came over the radio. This disaster pointed up the necessity not only for radio installations but for enough qualified operators to man the apparatus on passenger and larger ocean-going cargo ships. While later research denies that it happened, David Sarnoff (years later president, then chairman of the board, of RCA) encouraged the story that, as a young Marconi operator assigned to the New York station atop the JohnWanamaker department store, with the airwaves cleared by government order, he stayed at his post during the Zlitanic disaster, sending messages to coordinate rescue traffic and compile a list of survivors. Sarnoff soon was named commercial managerof American Marconi, perhaps because of his gift for self-promotion. When Marconi first started installing wireless in ships, his was the best equipment available. Other apparatus could be used, but Marconi and his business associates found ways to keep Marconi apparatus most in demand, A 1901 agreement with the Lloyds of London insurance pool to equip Lloyds’ signal stations served to gain acceptance and prestige for Marconi equipment early on; and Marconi allowed its shore stations to communicate only with ships that rented Marconi equipment and trained operators. As various nations began passing laws regulating radio to save lives at sea, and as ship-owners became more aware of its commercial benefits, more and more vessels acquired Marconi apparatus, complete with Marconi operators. To support their ownmanufacturers, nations other than England permitted or suggested other brands of wireless apparatus, but ships equipped with them could not, until after 1903 (see pp. 41-42),communicate withMarconi shore stations. By the start of World War I, British Marconi stood preeminent in the field. It controlled wireless communications throughout the British Empire and hadtaken over the assets of de Forest’s United Wireless, thus controlling-through its subsidiary, the American Marconi Company-90% of all American ship-to-shore commercial communication. Some specialized radio operations did not need interconnection with Marconi installations. As early as 1904, the United Fruit Company used de Forest apparatus to make ships available for loading fruit as soon as it was ready to pick. In 1907, switching to Fessenden equipment, United Fruit constructed the first radio-transmitting facilities in most of the Central American republics. It established an operating subsidiary, Tropical Radio Telegraph Company, in 1913 and was among the leaders in upgrading transmitting and receiving equipment-sometimes because a hurricane had
40
Chapter 2
Prehistory of Broadcasting(to 1919)
conveniently blown away older gear. By the early 192Os, United Fruit had invested nearly $4 million in establishing radio in the region, equipping its ships, andeven acquiring patents on a crystal receiver. For dispatching of ships, radio had no equal. For point-to-point messages, however, undersea cable offered strong competition. In 1907 British Marconi offered transatlantic wireless telegraphy at only 18 cents a word, as comparedto the cable companies’ 25-cent rate. The greater reliability of cable evened the odds and helped to prolong this commercial war for many years. Radio had more luck in the Pacific, where fewer cables meant less competition and less interference meant greater reliability. 2.3.2 Wireless and the U.S. Navy
m
The first important armed-forces tests of radio were conducted independently by the United States Navy and the British Royal Navy in 1899. The American tests were made of Marconi apparatus aboard the U.S.battleships New York and Massachusetts. Although radio signals bridged distances of up to 40 miles, it wasclear that thelack of suitable tuning devices led to unacceptable interference. Furthermore, the just adopted Marconi policy of renting rather than selling equipment and services was politically unacceptable. Obviously, the Navy could not accept being dependent on a foreign power, no matter how friendly. For the next few years, the Navy searched for a different, reliable radio system, while not using any wireless at sea. Neither the de Forest nor the Fessenden systems seemed to do the trick, nor did various European systems. In 1903 the Navy installed some German (Slaby-Arco) apparatus on ships of the North Atlantic Fleet, which gave them a clear advantage in war games over another part of the fleet without radio communications. At the same time, the Navy started to build powerful shore stations, and by 1904, 20 of these were in operation. One of these, in Arlington, Virginia, broadcast precise time signals, a useful aid to navigation. As early as 1905, after further comparative tests, the Navy began a conscious swing to American-made equipment. In 1907 it gave de Forest a scant month to install radiotelephone transmitters on the shipsof the Great White Fleet, being readied for an around-the-world “show the flag” mission. Partly because of hasty installation, these devices worked poorly, except for the one on the U.S.S. Ohio, which transmitted voice and music to the crew, to other ships in the fleet, and to listeners in ports of call. However, these unreliable radio telephones were removed when the fleet returned in 1909, and interest in naval wireless telephony languished for nearly a decade until the United States entered World War I in 1917. During this period, the Navy concentrated on expanding shore stations and shipboard wireless telegraphy installations. In 1912 it began building a chain of stations to connect American basesin the Pacific, including Hawaii
2.4 FirstAttemptsatRegulation
41
and the Philippines,at the same time that British Marconi was constructing the “Empire system” for use of the Royal Navy and to eliminate the British Empire’s dependence on easily severed cables. After contracting with the Federal Telegraph Company for a Poulsen arc installation at the Arlington station in 1913,the U.S. Navyinstalled similar transmitters in the Pacific, including one of 500 kw in Manila. Coastal shore stations in the United States were located so that, if one station was out of operation, another could reach naval units at sea. Unfortunately, most of this equipment could function over a range of only a few hundred to 2,000 or so miles-“ serious drawback if the Navy expected the fleet to be in action across the Atlantic or Pacific. Another drawback to the Navy’s use of radio was the resistance of personnel to innovation. Most shipboard installations were primitive, handbuilt affairs. Few men were adequately trained to get the most from them, and fewer still cared to learn. Doubtful senior officers discouraged diversion of scarce Navy funds for wireless, and field commanders disliked being tied to headquarters by an electronic umbilical cord. The telegraph had already limited the freedom of army commandersto “fight their own war,” but, until the advent of wireless, naval commanders retained independence due to the natureof their forces and battleground. Nevertheless, foresighted naval officers realized that wireless would be useful in wartime-if its problems could be overcome.
2.4
mmis
First Attempts at Regulation
Radio clearly was such a potential saver of lives and property in peril at sea that otherwise acceptable practices that interfered with its maritime operation had to be overcome. British Marconi’s policy not to communicate with users of other companies’ facilities, even sometimes in anemergency, was seen as a blatant attempt to establish a monopoly. Interference was increasing as more stations went on the air and receivers became more sensitive. It occurred not only between ship stations but between ships, land stations, and a growing number of amateur stations. Other factors helped to sway public opinion in the direction of government control of radio. Business scandals involved de Forest in the U.S. and Marconi stock in the United Kingdom. The growing militant nationalism in most technologically developed countries worsened the confusion over rates, equipment standards, and interconnection procedures. How could radio achieve full stature when each nation rallied around its own radio equipment manufacturers, and based industry standards onpolitical policy rather than on technology? Some international solution to these problems was indicated. In 1903, the government of Imperial Germany called the first international convention on radio, in Berlin. This meeting stemmed partly from the refusal of the Marconi Company to relay signals from a yacht belonging
Chapter 2
42
Prehistory of Broadcasting (to 1919)
to a German prince on a visit to North America. The eight nations attendingexcept for Italy and the United Kingdom, which notsurprisingly supported the Marconi position-called for all wireless systems to communicate under all conditions with all other wireless systems. With the provision that each country would have to pass the enabling laws, the meeting adjourned with plans to reconvene the following year. The subsequent meeting was postponed once because Great Britain and Italy still were not ready, and then again because of the Russo-Japanese War of 1905,and finally took place in Berlin in 1906.Delegates from 27 nations-including the U.S. with a naval officer delegation-worked out two protocols, one for ship-to-ship and the other for ship-to-shore communication, both calling for communication without regard for the type of equipment used. Also the internationaldistress call was changed from CQD (roughly, “calling all stations, disaster”) to an arbitrary three dots, three dashes, and three dots all run together-the famous SOS. These agreements were to take effect on July 1, 1908, but there were many delays and complications. Countries with Marconi contracts asked for time to work them out. In the United States, Congress initially refused
m
The Beginnings of Radio Regulation
(Excerpts from three key acts).
An Act to Require Apparatus and Operators for Radio Communication on Certain Ocean Steamers, approved June 24,1910 . .it shall be unlawful forany ocean-going steamer of the United States or of any foreign country, carrying passengers and carrying fifty or more persons, including passengers and crew, to leave or attempt to leave anyport of the United States unless such steamer shallbe equipped with an efficient apparatus for radio-communication, in good working order, in charge of a person skilledin the use of such apparatus, which apparatusshall be capable of transmitting and receiving messages over a distance of at least one hundred miles. That for the purpose of this act apparatus for radio communications shall not be deemed to be efficient unless the company Installing it shall contractin writing toexchange, and shall, in fact, exchange, as far as may be physically practicable, to be determinedby the master ofthe vessel, messages with shore or ship stations using other systems of radio-communication. An Act to Amend the Act of 1910, approved July 23,1912 .. .an auxiliary power supply, independent of the vessel’s main electric power plant, must be provided which will enable the sending set for at least four hours to send messages over a distance of at least one day hundred miles or night,and efficient communication between the operator in the radio room and the bridge shall be maintained atall times. The radio equipment must be in charge oftwo or more persons skilled in the useof such apparatus, one or the other of whom shall be on dutyat all times while the vessel is being navigated.. An Act to Regulate Radio Communication, approved August 13,1912 . That a person, company, or corporation withinthe jurisdiction of the United States shall not use or operate any apparatus for radio communication as a means of commercial intercourse among the several States.. .except under and in accordance with a license, revocable for cause, in that behalf of Commerce and Labor upon application therefore.. granted by the Secretary That every such license shall be in such form asSecretary.. the .shall determine and shall contain restrictions.. .on and subject to which the license is granted; . that every such license shall be issued only to citizens of the United States.. .shall specify the ownership and location of the station. .and other particulars forits identification andto enable its range tobe estimated; shall state the purpose of the station.shall state the wavelength or the wavelengths authorized for use by the station for the prevention of interference and the hours for which the station is licensedwork. for . .
.
..
.
.. .
..
.
..
2.4 FirstAttemptsatRegulation
43
to ratify the agreements, accepting the testimony of American wireless manufacturing firms that they wouldstifle development of radio and place it under international rather than national control. It was not until the planners of a thirdconference, to be held in London in 1912, quietly withdrew their invitation to the United States that Congress passed the first radio law in this country, the Wireless Ship Act of 1910. The absence of a specific law didnot mean thatAmericans were not trying to settle the problem of interference between stations, which was caused largely bythe uncoordinated use of radio by private commercial and experimental stations, the b y , the Navy, the Weather Bureau, and the Department of Agriculture. A board set up in 1904 by President Theodore Roosevelt to resolve these difficulties recommended Navy control of most radio, especially in wartime; legislation to prevent commercial interests from controlling radio; peacetime direction of radio by the Department of Commerce and Labor; and installation of government stations in all United States territories. Although none of these suggestions was formally adopted, one could trace them in American radio regulation for more than two decades. The Wireless Ship Act of 1910, which Congress passed after several attempts, contained in one page nearly everything called for in the 1906 Berlin protocol: Ocean-going vessels with 50 or more passengers traveling between ports 200 or more miles apart had tocarry radio apparatus capable of reaching 100 miles day or night and anoperator to run it. Partly because of the lesson learned from the Republic disaster, and partly because the law created a market for more sales, themanufacturers accepted this act. It met the demands of the 1903 and 1906 conferences indirectly, calling for “an efficient apparatus for radio-communication” and thendefining “efficient” by stating that “apparatus for radio-communication shall not be deemed to be efficient unless the company installing it shall contract in writing to exchange, and shall, in fact, exchange.. .messages with shore or ship stations using other systems of radio-communication.” (By the late 1950s and early 1960s, this precedent wasoverlooked when television was faced with the problem of sets that couldn’t pick up UHF channels.) Together with similar laws passed in other countries (one in the United Kingdom as early as 1904 called for trained radio operators), this Act solved the problem. In 1912, 29 nations met in London and agreed to strengthen the 1906 protocol, particularly, as a resultof the Titanic disaster that year, in recommending that twooperators be available on mostvessels. The United States amended the 1910 act to provide that any ship with50 or more passengers, regardless of distance between customary ports and including the Great Lakes for the first time, had to have radio, an auxiliary power supply capable of operating it, two or more operators, and good communication between the radio operator and thebridge. A monthlater, in August, Congress passed the Radio Act of 1912, which took seven pages to spell out public policy (stations had to be licensed by the Secretary of Commerce and Labor,
44
Chapter 2 Prehistory of Broadcasting(to 1919)
government stations had priority, etc.) and standards of operation (messages were to be secret, wavelengths and transmitter power were to be selected for minimal interference, etc.). This law governed the regulation of radio, including theas yet little-known concept of broadcasting, until 1927.
2.5 The First Broadcasters In selecting the mostimportant early broadcasters, one has to use a detailed definition of broadcasting (see p. 15).For example, although Stubblefield transmitted speech successfully (see p. 26),he hardly intendedto reach the general public, a major criterion in our definition, and his transmissions apparently relied on induction, inherently short-range, rather than onradiation. In anotherexample, Theodore and Francois PuskQslinked telephone subscribers in Budapest to a central unit that provided a news and music service. However, this “Telephonic Newspaper,’’ which ranfrom 1893 until at least the middle1930s, used wire, not radio-in a process called redifision, still usedin some countries. This might bethought of as the precursor of cable television, but it was not broadcasting by radio to the general public. Early in the century an ingenious operator at the Mare Island Navy base in California had produced musical tones by rapidly changing the speedof rotary generators of radio waves so that the musical pitch of the signal changed-similar to the musical games one can play today with “touch tone” telephone equipment. However, there were numerous examples of true broadcasting before its commonly accepted U.S. inauguration on KDKA late in 1920 (see pp. 63-66). Fessenden’s Christmas Eve 1906 broadcast was one. Fessenden had tried to ensure a maximum audience, and, although some ship operators and a smattering of reporters in New York had to act as surrogates for the general public, this transmission was intended for a general audience; it was telephony (speech and music); it required no special knowledge for decoding; and anyone with a receiver could pick it up. But neither Fessenden nor deForest, who madea number of broadcasts in 1907 and 1908, had incentive to establish a regular series of public broadcasts. Their stations were experimental and promotional, and the service they provided to listeners was incidental. Although better known and withmore powerful equipment thanmost, they were amateur radio operators, or hams. By 1912 there were more than a thousand suchhobbyists, most of them interested primarily in communicating with fellow amateurs, almost exclusively by Morse code. However, by 1915,having formed a national organization, the American Radio Relay League, and established a magazine, QST, they had become a potential political power, a source of trained operators for wartime, and animportant group of listeners, as well as tinkerers whose curiosity and work led to many important advances of the technical radio art.
2.5 The FirstBroadcasters
45
Perhaps the strongest claimant to being first to intentionally broadcast on a schedule to a general audience, with voice rather than code transmission, using electromagnetic waves, was Charles D. “Doc” Herrold, who operated a College of Engineering and Wireless in San Jose, California. He was not the first tobroadcast speech and music, not even in California, but early in 1909, as an adjunct to his school, Herrold presented regularly scheduled news reports and musical programs. Starting with a spark gap transmitter, he soon developed an arc that transmitted better quality voice and music. At first he broadcast only on Wednesday nights for an hour or so but soon changed to every day. Herrold built some receivers and made them available for public use in hotel lobbies. In 1915,during the San Francisco Exposition, the station broadcast six to eight hours a day with de Forest apparatus receiving its transmissions at the fair site. De Forest later said that Herrold’s station “can rightfully claim to bethe oldest broadcasting station of the entire world. . . .” When the Radio Act of 1912 was passed, Herrold’s station was licensed and operated until World War I, when all amateur stations were closed down. Herrold resurrected the station in December 1921 or January 1922,eventually using the call letters KQW and more conventional apparatus than the “Herrold System of Radio Telephony,” which would not work on wavelengths the Secretary of Commerce then assigned for broadcasting. KQW, later sold and moved to San Francisco, still broadcasts as 50,000-wattKCBS, with a legitimate claim to bethe descendant of the first broadcasting station in the United States-ven though the delay in returning to the air after WorldWar I had destroyed its claim as the oldest station now operating (see pp. 63-64). Perhaps the most important part of the Herrold story is that he was interested in providing a program service to the general public almost from the start. He wasn’t in the business of selling equipment, and his own apparatus wasn’t of sufficiently high quality to allow him to establish and maintain a patent position that wouldbring him royalty income. But, in a number of ways, it can be argued that he had thought through the concept of what we now call“broadcasting,” and never wavered from his opinion that it was important. In that sense,he was a true inventor. However, Herrold was but one of a growing number of experimental broadcasters. From 1912 to 1914,Alfred Goldsmith operated station2 X N at City Collegeof New York. lXE, operated atTufts Collegeby Harold Power, founder of American Radio and Research Company (AMRAD), also broadcast music ona more-or-less regular basis from Medford, Massachusetts, as early as 1916.It later became WGI. In 1916,G. C. Conner and C. V. Logwood also broadcast music over 2ZK in New Rochelle, New York, for an hour most evenings. In East Pittsburgh, Pennsylvania, Westinghouse engineer Frank Conrad began that same year to send voice and music programs from his hometo the Westinghouse plant five miles away. Soon he was scheduling music broadcasts for friends-a humble beginning for an enterprise we will discuss in the next chapter (see pp. 65-66). At the University of Wisconsin, Professor E. M. Terry set up 9 X M (later WHA) for telegraphic
46
Chapter 2
Prehistory of Broadcasting(to 1919)
Herrold’s KQW The First Real Station? WIRELESSTELEGRAPH TO BE DEMONSTRATED
PROF.HERROLD,
FORMER SAN JOSEAN, HAS MADE MANY INTERESTING EXPERIMENTS
entertainment will beaperfectimitation of lightning. A series of long, zig-zag discharges will be led over a plate 12 feet long under the enormous tensionof nearly 500,000 volts.
WILL PERFORM FEAT OF FIRING MINIATURE POWDER MINE BY WIRELESS
Public interest is focusing on a novel form of entertainment to be givenin the Y.M.C.A. Hall, Friday evening July 16th. Chas. D.Herrold, a former San Josean will appear herefor the first time in a lecture ‘The Story of Wireless.” He has devoted a number of years to a careful experimental studyof wireless telegraphy and telephony. For several months past he has had a system installed on board the sloop Dorothy on the San Joaquin River and a permanent station at Stockton. A portable outfit was also senttoVernalis,Cal.andhisassistant in charge kept in touch with him by ether waves. In theFridayeveningentertainmenthe will show the public how it is possible to time two stations so that other stations cannot get the messages. He will perform the feat of firing a miniature powder mine by wireless and will have installed on the stage a complete wireless station. The equipment includes two large Rumkoeff Tesla [sic] coils capable of producing 400,000 volts of electricity. A feature of the
;l ‘
4
I
.
L.
“Doc“ Herrold stands at the doorway of his second station, about 1913. The large circular cones on the table are part of Herrold‘s own system of wireless telephony, which he used until World War 1.
~
Source: San Jose Daily Mercury news item Thursday morning,July 15,1909. Courtesy of San Jose Mmcwy. Photo courtesy of KCBS Radio.
weather forecasts and market reports for mariners on the Great Lakes and farmers. Allowed to stay on the air during World War I, Terry also experimented withvoice broadcasts, the genesis of WHA’s claim to be the first station. Some experimenters of this period reached great distances with their low-power transmitters because there were few stations to offerinterference. Even as experimentation in broadcasting progressed, most radiopeople believed that the future of radio lay with narrowcasting or point-to-point communication, particularly between mobile stations or over difficult terrain. “Radio people” in this instance included the major electrical and wireless firms, who wouldhave to support any new use of radio. There were exceptions of course. “Doc” Herrold understood the concept, and it can be argued that his wife, Sybil, was the first deejay; de Forest’s love of opera and classical music led him to use music when testing his transmitters and subsequent telephoned requests for particular pieces made him realize
2.6 Radio at War
47
Conrad’s “Home” Station Equipmentusedby Dr. Frank Conrad,assistant chief engineer of Westinghouse, in the years before KDKA was established in 1920. Conrad transmitted radio telephone programs from his garage, using the call 8XK. letters
m
Photo courtesy o f Westinghouse and JosephE. Baudino.
that unknown others wouldlike to hear musicover the air. David Sarnoff, who had been promoted to commercial manager of American Marconi some years after his service at the Marconi station in New York during the Titanic disaster, claimed to have written a memo in 1915 or 1916 suggesting a “radio music box.” Although this claim was generally accepted for decades, research by Louise Benjamin in 1993 and 2001 demonstrates that he really wrote the oft-quoted memo in 1920,when broadcasting was almost a reality, but that an earlier version apparently had been written to Marconi General Manager E. J. Nally in 1916. However, by1917 there were morethan 8,500 licensed amateurs, some of whom transmitted voice and music, and most of whom listened. However, the complexity and unreliability of equipment, the necessity for earphones, and the limited programming tended to limit radio to the engineering-minded. Neither engineers nor businessmen had much interest in visionary schemes.
2.6 Radio at War -4
Armies had used the telegraph for 50 years, and World War I added all the newer devices that could be converted to warfare-the automobile, the airplane, the radio-and stimulated their development as well. Although the war halted most private experimentation and closed amateur stations, the
48
Chapter 2 Prehistory of Broadcasting (to 1919)
Army and Navy’s need for reliable, efficient apparatus for communication hastened the introductionof wireless in all forms. 2.6.1 Radio in World War I 11111111
In the Gulf of Mexico,the U.S. Navy was able to intercept some ships during an incident prior to America’s entry into World War I, thanks to radio. In Europe, Germany had had to turn to radio when Britain cut Germany’s cable connections. Germany used radio sometimes for propaganda but usually for scheduling and dispatching commercial and naval vessels, Its “broadcast” nature, however, permitted the British to intercept German messages and decipher them with the aid of a captured code book. One message, sent by the German Foreign Ministry to their ambassador in Mexico City, proposed offering the Mexicans large chunks of United States territory if Mexico would join Germany in the event of war with theUnited S t a t e s t h e famous “Zimmermann Telegram.” The British were delighted to inform the United States government, and the world, about the perfidy of the Germans and provided Washington with the key to the German code. What made this more infuriating to the Americans was that a Germanowned but American Navy-operated station in New Jersey had relayed the original message, still in code, as a diplomatic courtesy. The Navy was operating the German-owned transmitter because the government had taken over all high-power stations-even American Marconi’s-as a national security measure. All amateur stations, including broadcast experimenters, were closed down in 1917.The Navy’s own 35 coastal stations, its high-power chain across the Pacific, and radio telegraph apparatus onnearly all major vessels had cost about $20 million by April 6 , 1917,when theUnited States entered the war. Afterthat date, the Navy also acted as censor on all wireless and cable communication channels and the government took over the railroad and telephone industries, the latter assigned to the Post Office Department. The Navy communicated with the fleet in European waters from majorshore stations including the American Marconi installation at New Brunswick, New Jersey. This station used a 200-kw Alexanderson alternator, which had replaced the 50-kw one and could be heard all over Europe. With its great interest in rapid and efficient communication, the Navy was in anexcellent position to use wireless. However, it suffered from two shortages: trained personnel and top-flight equipment. The first shortage was solved through recruiting amateur operators and establishing radio schools around the country, including one at Harvard University. By the Armistice, November 11,1918,some 7,000men had been trained and 3,400 were under instruction. This group, added to the thousands of hams who managed to keep up their interest in wireless during the war, strongly influenced postwar radio developments.
2.6 Radio at War
49
Technologically, radio advanced during the war. Lightweight vacuumtube transmitters and receivers were developed. Even airplanes carried them, including one set designed by Major Edwin Armstrong. Low-power, tactical radio sets were not nearly so prevalent as they are today. In World War I, an Army division of 20,000 men rarely would have more than six radio sets-one for each of four regiments, one for the artillery, and one at headquarters. (By the early 1950s,one transmitter served every 6.3 men in an army division, and today most units have far more.) Although radio added greatly to the flexibility of ground communication during World War I, the demands of reliability, secrecy, and relatively immobile trench warfare made telephone and telegraph service more common than wireless. 2.6.2 The First Patents Pool
The Navy could requisition high-power (in those days, anything from 50 watts up) stations from private companies, train operators for them, and close down domestic stations to prevent the transmittal of espionage; but obtaining efficient and modern shipboard radio equipment was another story. Vacuum-tube equipment was obviously the best, but nobody could legally make triode vacuumtubes so long as de Forest controlled the patent on the third electrode and Marconi controlled the Fleming patents on the first two electrodes. Furthermore, some of the Navy’s earlier sources were busy making equipment for either the Germans or the Allies. Litigation on the de Forest and Fleming patents had continued for years, and court decisions in 1916 tied most companies into knots. Years before, Western Electric (AT&T)had purchased somerights to the triodefrom de Forest, but not enough. If tube equipment was to become available, the patent situation would have to be resolved. The wartime solution was an emergency pool of patents set up under Navy protection. This offer of indemnification, in effect, said: “Use what you need to give us the best equipment, and if you are sued for patent infringement, we’ll pay the bill.” As the result, the Navy could get its equipment, mostly from civilian plants. At the endof the war, all the temporarily shelved problems came back, together with some caused by the war itself. Should the Navy relinquish control over transoceanic wireless? What about the telephoneindustry, and the amateurs? How could the triode legally be manufactured and used? The patents pool had worked well; could it or should it continue? What about jobs for the returned radio operators? What about factories that had been turning out war-related radio apparatus? Should the government allow Marconi to expand its monopoly, particularly with respect to messages from America to Europe and the Pacific? Should Marconi alone have the Alexanderson alternator? The next chapter tells how these questions were answered.
50
Chapter 2
m
Prehistory of Broadcasting(to 1919)
Use of Radio by the U.S. Army and Navy in 1917 and 1918
The Army Signal Corps Although a transatlantic radio station was built near Bordeaux, the War Department in Washington had no radio contact with its commanders in the field, and these commanders had no very dependable wireless systems among themselves. Radio carried little of the war‘s communications load. In the first place, the tactical situation again and again brought the Western Frontinto small areas and mired it there. For another reason, although nearly 10,000 radio sets, chiefly airborne radiotelegraph, were produced for the Signal Corps and Air Service, the conflictwas overtoo soon for the combat signalman or aviator to use them much. Finally, radio was too new to have passedthe awkward age. Spark-type equipment did have the advantage of not requiring a skilled man to tune it or mend it, but was so heavy it could scarcely be moved, was often unintelligible, and was frequently out of commission. Tube equipment generally replaced it. Radio’s chief use was for intelligence work. At goniometric stations it took what were later called “fixes” upon enemy transmitters and identified their location by the intersectionof the angles.It intercepted German ground telegraph, telephone, aircraft, and artillery signals.. .The most interesting aspect of Signal Corps radio in World War I was the consolidation of thehitherto scattered effortsin scientific research... [but] for the most part, none of the laboratory improvements got into production before the Armistice. Had any been developed before the war, radio history would have been made, for the critical inadequacy of equipment necessitated remarkable advances in the field.
.
-
Source: Dulany Terrett,The SignalCO+: The Emergency(Washington: Government Printing Office, 1956), pages 18-19.
Naval Rad10 In the operating field the Navy lwnographicCollection, State HistoricalSociety Of Wisconsin. becamethe sole agency,withtheexceptionof U.S. Army field communications, for providing ’ U.S. radio communications, both military and commercial,fromthedateweenteredthewar i until l March 1920. Much was done during the periodtoincreasethereliabilityoflong-range : communications by encouraging the developmentofhigherpoweredarcsand alternators ; and by the Navy’s own design of heterodyne and neutrodyne receivers, multiple-stage amplifiers, and other ancillary apparatus. By the end of the war,sufficientprogress hadbeenmade in the . . developmentof static-reducingbalancedantenna systems, together with improvements to transmitters and receiving equipments, to insure reliable transatlantic radio communications.
E!(x3)*8.?)
~
I
Source: Captain L. S. Howeth, History of Communications-Electronics in the United States Navy (Washington: Government Printing Office,1963),page 209.
2.7 The Stage Is Set We can think of developments up to 1895 as background, for it was only with Marconi’s active experimentation in that year that wireless began to move from theory to practice. The key people include Clerk-Maxwell, who first theorized about wireless communication; Hertz, who experimentally proved Clerk-Maxwell correct: Marconi, who took wireless from experiment to practical reality; Fleming, who developed the first vacuum tube
Selected Further Reading
51
with two elements; Fessenden, the first important American (actually, a Canadian working in the U S ) experimenter and the first broadcaster; de Forest, who made amplification possible with histhree-element vacuum tube; Alexanderson, who achieved the first reliable means of long-range wireless communication and unwittinglyAmericanized broadcast development; andArmstrong, who inventedreceiver circuits thatgreatly improved reception. We can divide this time into the wireless experimental period (up to about 1900), practical maritime application (1900-1914), and radio in World War I (1914-1919). We see in these years first attempts at international andAmerican regulation of wireless; intense nationalism in wireless development, with British interests dominating; and the first broadcasts and broadcasting stations both hereand abroad. Of overriding importance was the control of key patents, determining which countries, business firms, and individuals would play leading roles. Originally, the most important concept, generally held, was that wireless was essentially a means of rapid, long-distance, point-to-point (or narrowcast) communications, for international and maritime message transmission. Only a handfulof experimenters grasped its potentialfor broadcasting to thepublic.
Selected Further Reading (AFhabeticaZ within topics. For@ZZ citations, see Appendix D.) For early wired electrical communications and general bibliographies, see the books noted in chapter one. Standard early histories of wireless development are Fahie (1901), Fleming (1906), and Lodge (1900). More recent valuable studies include Aitken (1976, 1985), Coe (1996), Dalton (1975), Douglas (1987), Leinwoll (1979), Schubert (1928), Sivowitch (1970-1971), and Wedlake (1973). For the history of radio detection and vacuum tubes, see Phillips (1980), Stokes (1982), and Tyne (1977). For moreon the work of (and patentfights among)specific inventors, see Appleyard (1930), Blake (1928), Dunlap (1944), Hawks (1927), Howeth (1963),Lewis (1991),Maclaurin (1949),McNicol(l946), and Sturmey (1958). The many early U.S.wireless firms are sorted out in Mayes (1989). The role of amateur operators is described in Berg (1999), DeSoto (1936) and Fifty Years of A.R.R.L. (1965). Biographies of Marconi include those of Dunlap (1937),Jolly (1972),and his daughter, Marconi (1962). Baker (1972) reviews Marconi company history, Hancock (1950) relates Marconi’s maritime role, and Jensen (1994) focuses on equipment development. DeForest’s story is told in deForest (1950) and Hijiya (1992). Other biographies include Cheney & Uth on Tesla (1999), Fessenden (1940), Lessing (1956) on Armstrong, and Bilby (1986) on Sarnoff. Sobel (1986) offers an informal history ofRCA. Worldwide technical, application, and legal developments are reviewed in the annualYear-Book of Wireless Telegraphyand Telephony (1913-1925).
Eunice Randall, announcerat lXE/WGI, in 1921.Donna Halper.
“I believe that thequickest way to kill broadcastingwould be to use it for direct advertising. The reader of the newspaper has an option whether he will readan ad or not, butif a speech by the President is to be used as the meat in a sandwichof two patient medicine advertisements there will be no radio left.”Herbert Hoover, Secretary of Commerce, at theThird National Radio Conference, October6-1 0, 1924
First factory-built consumer radio for home listening in the early 1920s. Station KDKA, LVestinghouse.
53
Chapter Outline 3.1 ImportantPrecedents 56 3.1.1 What Almost Happened: Government Control 56 3.1.2 The Birth ofRCA 57 3.1.3 Patents Pooling: Westinghouse versus RCA 58 3.2 The Pioneer Stations 63 3.2.1 The Oldest Stations 63 3.2.2 Boom (1922-1925)69 3.2.3 Conflict: Radio Group versus Telephone Group 3.3 T h e Start of Networking 77 3.4 Early Educational Broadcasting 78 3.5 The Problem of Financial Support 79 3.6 Early Radio Programming 8 0 3.6.1 Music 82 3.6.2 Variety and Vaudeville 83 3.6.3 Politics and News 86 3.6.4 Other Talk Programs 87 3.6.5 Drama 88 3.7 Creation of the Radio Audience 88 3.7.1 Development of the Receiver 89 3.7.2 A National Craze 9 1 3.8 Further Attempts at Regulation 93 3.8.1 Hoover and the NationalRadio Conferences 93 3.8.2 Chaos 97 3.8.3 Initial Self-Regulation 98 3.9 Radio’sEarly Impact 99 3.9.1 Domestic Effects 99 3.9.2 RadioAbroad 100 3.9.3 PeriodOverview 102
Selected Further Reading 103
54
74
orld War I was over. America beganto emerge fromits isolation from the world, although the failure of the U.S. Senate to ratify the League of Nations Covenant showed we had a long way to go. Politically, the country drifted until the “normalcy” of the Harding administration starting in 1921. While many rural areas endured economic hardship, businesses in the cities faced the pent-up demand for all the goods and services unavailable since early 1917. Migration from countryside to city accelerated, while restrictive legislation slowed immigration from abroad. The newmobility of the automobile, adding congestion to the cities and creating the suburbs, expanded theimmediate horizons of Americans, At the same time, the motion picture shattered barriers of time and distance and showedordinary audiences a new, faster life outside theirimmediate surroundings. The changes in American attitudes that accompanied both these developments were ready targets for men and women who preferred a rigid, traditional, moral climate-such as the reformers who were flushed with Prohibition, their victory over DemonRum. The period became known as the Roaring Twenties. Radiowould play a big part in communication of that frenzied lifestyle. The country’s literary life was prolific, with young writers here and abroad turning out essays, novels, poetry, and plays that depicted theage. The first tabloid newspaper, the New York Daily News, appeared in 1919, followed by such untraditional magazines as Reader’s Digest (1922), Time (1923), and The New Yorker (1925). Magazines generally used more photographs than print media previously had and covered a greater variety of events and developments-not just the effects of the car and motion pictures, not just political scandals, but sports events, sensational crimes and trials, the rise in aviation, trends in science, and the latest fads. Behind this surge of activity in the media was theexpanding role of business and the prosperity that business brought to many Americans who suddenly had more leisure and money than ever before. It was within this environment of national change that radio broadcasting began. Starting slowly, it quickly gathered pace to become one of the biggest and longest lasting fads. But before broadcasting could become an industry, several important economic, technological, and social developments had tooccur both here and abroad. While foreign countries faced the same problems, the American solution was unique, 55
56
Chapter 3 Beginnings of Broadcasting (1920-1926)
3.1 Important Precedents Though often forgotten today, several developments in the1918 to 1922 period helped to set American broadcasting’s pattern, although they received little public attentionat thetime.
-
3.1.1 What Almost Happened: Government Control
The sometimes destructive competition between rival telegraph and telephone companies,the monopolistic trend in each field of communications due largely to the benefits of economies of scale, the Navy experiences during the war (see pp. 47-50), and theexample of many European countriesall led to a strong push for a government-owned-and-operatedwireless system. In Europe, almost all telegraph and telephone systems were part of the postal service. In the United States, at the endof World War I, the belief 1840s when, after prorecurred thatCongress had made a wrong turn in the viding capital for Morse, it allowed the telegraph to revert to private hands (see pp. 9-11). Before the United States entered the war, an effort to establish government control reached Congress. An interdepartmental radiocommittee proposed, on November 21, 1916, revision of the Radio Act of 1912 to allow, among other changes, government stations to compete with commercial interests for purchase of private stations. TheMarconi interests fought virtually every section of this proposed legislation, but itwas finally introduced into the House as the Alexander bill, named for the representative who introduced it.Secretary of the Navy Josephus Daniels strongly urged its adoption as did, to the surprise of other amateur organizations, Hiram Percy Maxim, head of the American Radio Relay League and a noted inventor. Spirited debate arose over the provisions for limiting foreign ownership of any operating commercial company, with the Marconi interests objecting particularly. Their concern raised suspicions that Marconi was bent on establishing postwar dominance in thefield. The U.S. entrance into the war, and the Navy’s assumption of operational control of all stations on April 7, 1917, lifted the pressure on Congress. However, one month after the Armistice, Secretary Daniels, still strongly favoring government ownership, helped to revive hearings on the Alexander bill before the House Merchant Marine Committee. But the Navy had run into criticism for using wartime emergency powers to purchase the stations of the Federal Telegraph Company, some of the coastal Marconi stations, and installations in all seagoing vessels of American registry through the Shipping Board. This criticism and the Republican congressional sweep in the 1918 elections sounded the death knell of the Alexander bill. Until he left office in 1920, Secretary Daniels continued to press for commercial use of Navy-controlled stations or, failing that, at
3.1 Important Precedents
57
least making overseas radio communication from the United States a private monopoly in American hands, butthe bill wastabled on January 16, 1919.
Furthermore, after the war, the Navy not only suffered from a lack of funds and of trained operators (after volunteers left), but faced a strong and growing clamor for return of government-operated stations to their owners. This outcry, joined by amateurs, as well as AT&T and Marconi, led President Wilson, on July 11,1919, toorder all seized stations returned to their owners as of March 1,1920. The amateurs were allowed back on the air on October 1,1919. 3.1.2
The Birth of RCA
I
The trigger that led to establishment of the Radio Corporation of America was the renewal of negotiations between British Marconi and GE over the Alexanderson alternator in March 1919, a bare 4 months after the end of World War I (p.34). It was the second round in a series of discussions that had begun in 1915. Marconi now offered to buy 24 large alternators, 14 of which American Marconi would use, for $127,000 each-a vast sum for a time when a day’s labor was worth only a dollar or two. This represented more than $3 million worth of business to GE, which, like other firms, was then painfully adjusting to the end of wartime government spending. At that time GE had nointerest in the communications business itself. The following month Marconi offered to pay an additional milliondollars to compensate GE for development costs ifGE, which wouldretain manufacturing rights, granted Marconi the exclusive right to buy the Alexanderson alternator. Because this machine was the best and most reliable transatlantic radio communication device known at that time, acceptance of the offer would give Marconi a monopoly on American radio communications with Europe. Most Americans, whether or not they favored government control, deplored the idea of allowing a foreign company to control American communications facilities (see p. 56). When OwenD. Young, then head of GE’s legal department, approached Acting Secretary of the Navy Franklin D. Roosevelt for the Navy’s view of the proposed Marconi contract, he found strong opposition. Documentation of what happened next is sparse. ’ztvo American naval officers, Admiral William H. G. Bullard and Commander Stanley C. Hooper, known as the “father of naval radio,’’ played a part in organizing governmental support for a “chosen instrument” in international radio; but their role apparently was insufficient to justify RCA’s later claim that the firm was organized in response to a government request. The architect of the scheme thatfinally resolved the Marconi contract and many other postwar problems (see p. 49) was Owen D. Young, later to become chairman of the
58
Chapter 3 Beginnings of Broadcasting (1920-1926)
board of GE. A genius at negotiation, Young persuaded GE’s directors to buy a controlling interest in American Marconi. British Marconi sold its holdings without much fuss, since it wasclear that Congress would not accept foreign control of communications and since the Navy still held the American Marconi stations. GE then bought out the holdings of American stockholders of American Marconi. This first block in the Young edifice gave GE control of most United States-based ship-to-shore and international radio stations as well as rights under existing Marconi contractswith ship operators. Marconi, in return, could use the Alexanderson alternator for its own stations in the British Empire. Since GE preferred the manufacturing business, it established the Radio Corporation of America in October 1919 to operate these stations. RCA’s corporate charter required that at least 80% of its stock be in American hands, that allofficers be American citizens, and that the government have a representative on the board of directors to “present and discuss informally” the government’s views. Admiral Bullard, whom President Wilson appointed to the post, had littleinfluence on corporate decisions, however. The unilateral placing of this provision in RCA‘s by-laws did not carry the same weight as it would have with a public corporation or quasi-official arm of the government organized or chartered by Congress. Young was named chairman of the board, and two former American Marconi officers, Edward J. Nally and David Sarnoff,became respectively president and commercial manager of the new firm. On the day of RCA’s formation, GE and RCA signed a cross-licensing agreement calling for mutual use of each other’s radio patents. A monthlater, GE transferred to RCA the tangible assets of what had been American Marconi, and the Navy promptly turned over the former American Marconi stations. RCA’s primary role was to be an instrument of American policy in the international communications field. Some of its other roles were not assumed for several years, and the most important of these was the resolution of a decade-old conflict over patent rights for technology that included the triode vacuum tube. 3.1.3 Patents Pooling: Westinghouse versus RCA
At the end of the war, it looked as though the design and manufacture of radio apparatus wouldbe set back several years as the Navy program of indemnifying manufacturers against patent infringement suits came to an end and the advanced designs that had come from this period could no longer be used. Radio required the useof many patents, which were held by many individuals and companies. Amateur operators, however, could pirate these designs and techniques-with the exception of vacuum tubes and high-powered transmitters-and build their own equipment fairly easily. They could get the few items that were hardto produce at home from small
3.1 Important Precedents
59
manufacturers, many of whom were rather lax about paying royalties. The greatest hindrance to the manufacture of advanced radio receivers was the unavailability of the triode, de Forest’s Audion. De Forest still controlled some rights to the third element, and he hadsold someto Western Electric (AT&T) years before, but British Marconi still controlled the basic twoelement tube, the diodeor Fleming valve (see p. 37). The pieces of this jigsaw puzzle fell into place when GE,RCA, and AT&T signed a further patents pooling agreement on July 1, 1920. Since AT&T,through its subsidiary Western Electric, had the right to use the third element of the triode, and since GE and RCA, through their purchase of Marconi assets, could use and license the patents for the diode, the crosslicensing agreement made the commercial sale of triodes legal for the first time. What was Westinghouse doing all this time? GE’s role was clear; it was the patron of RCA and the busy manufacturer of electrical and electronic apparatus. RCA not only operated overseas radio communications as the result of agreements with Marconi and various foreign post and telegraph administrations, but also managed a large and growing pool of important radio patents. AT&T retained the rights to use all patents necessary for the rental of radio and wire telephony service. Among other small companies, United Fruit hadjoined the patents pool, bringing in its crystal receiver and loop antenna patents in March 1921. But where was Westinghouse, one of the largest and most energetic electrical manufacturing firms in the world? Although RCA-GE-AT&T had all the elements necessary to construct and operate a profitable communications system, their patent situation did not give them amonopoly. At the end of the war there was still room for a communications system that did not rely on the RCA-GE-AT&T patents pool. Westinghouse, as a major competitor of GE, decided to fill that hole, The company had done considerable radio research and manufacturing during the war, and it owned many important patents. Westinghouse wanted to get into the international communications market, which, together with maritime radio, was considered the future profit center of wireless. It acquired control of the International Radio Telegraph Company, whichhad Fessenden’s heterodyneandcontinuous-wavetransmitter patents (see p. 34), as well as some useful foreign contacts, in May 1920, a few months after RCA’s establishment. That summer, Westinghouse President SamuelM. Kintner traveled to various countries in anattempt to line up traffic agreements. He met great difficulties because ofRCA’s ironclad agreement with British Marconi, and received cooperation only from a war-cowed Germany. Not yet discouraged, Westinghouse purchased the Armstrong regenerative and superheterodyne receiver patents in October 1920 for $335,000 and arranged with the U.S. Navy for the non-exclusive use of a large block of important patents. These patents included some German patents, which the Navy had acquired from the custody of the Alien Enemy Property Custodian, and the
60
Chapter 3 Beginnings ofBroadcasting (1920-1926)
ATBT = American Telephone and Telegraph Co. IRT = international Radio TelegraphCo. TlRT = The international Radio Telegraph Co. RCA Corporation = Radio of America
Langmuir Coolidge Tube Patents 1912-1918
Alexanderson Alternator \r
March 7.1921 July 1,1920
de Forest (Triode) Patents
I
+
1907-1908
1917
)
Electric
>
1852
i
i
J
I
1
November20.1919
S \
I
Julyl. 1920
fecbcondition. ..upright, and there’s no co?nplai?~~ aboiit their p o ~ i t i ~ z . Sehirra: Jzmt n little dzist. C r o n ~ i ~Bog! : There theg sit 011. fhe moon! Just exactly ~ o ? n i n a ~ iuasdt it ...on green with the .flightplan, all the way down. Man ~ i ~ l l y is standi~~g on the siirface of the -nioot~Ma, golly! ~ a p c o mRoger, : we read you ~ l u ~ b iHe a .has landed. ~ a n q u i i i ~ ~. Base. Eagle is at T r ~ q u i l iOver.
7/20/69 (New York GBS ~ e ~ e ~ sNews, i o n 1 9 7 ~ )pages , 76-78.0 1970 CBS, Inc. By permission.
9.6 Program Specialization and Cycles
449
other campuses, the climax of this movement was the killing by Ohio a at Kent National Guardsmen in early 1970 of four students during protest State University. Many reporters stationed in Vietnam felt that the United States was backing a string of dictatorships, that the war was morally wrong, and that it was being mishandled. Those who merely dropped in for a career-enhancing visit were taken in hand by Public Information Officers and consequently supported the war. But Walter Cronkite, after his second visit, delivered a strong negative commentary that reportedly caused President Lyndon Johnson to realize that the war had lost the support of middle America. ABC for several years offered a documentary overview of the week’s events in Vietnam, but most network coverage was restricted to evening newscasts and occasional documentaries. Although reporters claimed that military control of their reporting, especially in countries like Thailand and Cambodia, made itdifficult to get and transmit a truepicture of what was happening, no previous war hasbeen so accessible to reporters. The lazy reported the war fiom Saigon by relying on the military briefings known locally as the “Five o’clock Follies”; the brave, ambitious, or foolhardy went out on combat patrols, where a numberof them were killed or listed as missing. But there was little depth to the coverage. Obviously,television did play an important part in its first war, but it is an unanswered question whether the steady coverage of wartime violence deadened Americans to reality or whether the reporting showed theforest behind the trees and changed American thinking. Television news and documentary units, especially thoseof CBS and NBC, were taking on increasingly tough subjectsand saying something of value or importance about them. But controversy surrounding the television documentary was increasing. The 1960s began with the last of Edward R. Murrow’s documentaries, Harvest of Shame, dealing with problems of migrant farm workers. When Murrow later was serving as head of U.S. Information Agency (USIA) for President Kennedy, he tried to suppress export of the program, but to no avail and much criticism, Programs such as Biography of a Bookie Joint,with films of gambling operations going on without police intervention, and Battle of Newburgh (about a town that cutoff funds for many welfare recipients), led to public outcry and threats of legal action against the network responsible. Howard K. Smith’s ABC documentaryon The Political Obituary of Richard Nixon, just after Nixon lost the California gubernatorial election in 1962, raised sparks when Alger Hiss gave his views on his old tormenter. (Nixon, as a congressman, had been instrumentalin sending former State Department official Hiss to jail for perjury for denying that he had been a communist agent.) Nixon supporters and other complainers and victims accused television of political bias and unfair reporting. CBS got into trouble with its “Pot Party at a University” segment of a Chicago had beenset up for local news showwhen it became known that the event
450
Chapter 9 Accommodation andAdjustment (1961-1976)
the cameras. Not only wasthe useof marijuana illegalbut news “created” by the broadcaster was, at best, misleading the to public. Perhaps the biggest complaint-and a congressional hearing-resulted from CBS’s 1971 telecast of Selling of the Pentagon, a hard-hitting discussion of military public relations, which questioned spending large amounts of tax moneyin thisway. The documentaryangered conservative congressmen, though many admitted they had not seen the program, and they engineered a full-scale hearing on documentary practice, film splicing, editing of shows, and out-takes (unused film material). CBS refused to supply any materials not actually aired on the program, contending that such action would violate First Amendment freedoms and stifle all investigative reporting. An attempt to cite CBS and president Frank Stanton for contempt of Congress failed in what most broadcasters regarded as a victory. But several important pointshad been raised,and some documentary production methods were changed and controls of viewpoint tightened, What seemed acceptable and normal to a documentary maker might not appear so to a concerned viewer. Prior to 1964, the networks themselves had produced all news and news documentary programs. In 1963, ABC opened the door to other producers a bit by showing the David Wolper production of Making of the President: 1960. As television became the most commonly used and trusted sourceof information by the American public, its responsibilities increased. The networks’ news coverage received the strongest-generally politically inspired and planned-criticisms in the very late 1960s and early 1970s. In a televised speech to a Republican group in Iowa in Fall 1969, Vice President Spiro T. Agnew complained that threemajor networks had a stranglehold on the nation’s news and thinking. He asked rhetorically who had selected the small group of network officials, editors, and anchormen who made news decisions. A week later he offered another complaint, and soon similar remarksfrom other politicians joined in a wellorchestrated campaign and safety valve for long-standing resentments. The broadcast industry responded with its usual defensiveness, emphasizing the dangers of governmental control of news. Agnew’s comments ostensibly had been sparkedby the network practice of commenting on a presidential speechimmediately-what he called “instantanalysis.’’ That the networks usually had copies of presidential speeches to study hours in advance did not placate those who believed that the President should not be interpreted in this way. For a time in 1970-1971, CBS eliminated any post-speech analysis. Many local stations joined in the clamor over network news control. They either had different political viewpoints-station owners frequently being more conservative than network news officials in New York and Washington-or wanted toavoid controversy that might interfere with sales of advertising time. The months-long confrontation, part of the Nixon administration’s battle with more or less independent centers of information
9.6 Program Specialization and Cycles
451
and power, was useful. Broadcasters had to consider their own actions and policies, explain them,tighten up sloppy practices, and improve their professionalism. Viewers had been directly exposed to critically important differences between government and media, and government and media both had re-evaluated their roles and assumptions. These struggles between media and government, including therelease of the “Pentagon Papers” and the resulting legal clash between the New York Ernes and the government, and further disillusionment over Vietnam culminated in the biggest domestic news event in decades: Watergate. Television did not play a strong role for the first year of the Watergate scandal of 1972-1974, which started with a “third rate burglary” and ended with the resignation of President Nixon. From discovery of the burglars in the Democratic Party offices in June 1972 through the election the following November, most investigative research was by the printed press, notably the Washington Post. Television stories and special programs became more common in 1973, but television’s greatest value was itscoverage of the Senate Watergate Committee hearings. Running from May through August 1973, and chaired by North Carolina’s crusty Sam Ervin, these hearings were a fascinating live exposition of the political process in America, and were “must” television watching as a parade of witnesses t o l d - o r evaded telling-what they knew of the broad conspiracy to assure the re-election of Nixon and thento cover up the conspiracy itself. The membersof the Senate committee soon became household names and faces, as the various witnesses supplied their pieces of the puzzle. For a time, the networks alternated coverage so that they and the viewers would have a choice between the hearings and regular entertainment programming. The more the viewers watched the hearings the more important the Watergate issues became in national affairs. Newscasts and special news programs punctuated the course of the tottering administration. In October 1973 Vice President Agnew had to resign because of his acceptance of kickbacks when hewas a Maryland official-to be replaced by Congressman Gerald Ford. Shortly afterward, when Nixon chose to fire the special prosecutor investigating Watergate, there was a “Saturday Night Massacre” that includedseveral resignations and firings of top Justice Department officials and thefiring of the special prosecutor. The story continued to build. Nixon professed innocence of the coverup, gave edited tape transcripts of his White House conversations to Congresswith the transcripts, in large binders, impressively piled behind himas he spoke on television. There were court battles over access to the tapes by Congress and by the new special prosecutor, arguments over a “missing” 18 1/2-minute portion of one tape, and further arguments over executive privilege and the right of Congress to subpoena the tapes. When theHouse Judiciary Committee in mid-1974 recommended impeachment, and the Supreme Court said that the President could not withhold the tapes, it was all over. On August 8, 1975, television and radio presented President
452
Chapter 9 AccommodationandAdjustment
(1961-1976)
Nixon’s resignation speech to a startled public as well as theswearing in of Vice President Gerald Ford the next day. The story finally ended with Ford‘s pardon of Nixon some weeks later. 9.6.5 Election Broadcasting
n
There were few changes in political campaign coverage in the 1964, 1968, and 1972 elections-but 1976 was different. The 1964 election fight between President Lyndon B. Johnson andSenator Barry Goldwatersaw some of the strongest-some would say dirtiest-national political ads ever aired. A soon famous-though aired only once-Johnson spot intimated that Goldwater was likely to start an atomic war, and a Goldwater spot virtually accused Johnson of immorality. For election night, the networks and wire services joined together forthe first time to coordinate reporting of election returns. The resulting Network Election Service (later, News Election Service) was to become permanent. The networks each took nine states, and the wire services split the rest. Although all “raw vote” tabulations were now common to all media, each network still used its o w n sample areas and computerized prediction techniques for forecasting or “declaring” winners-sometimes before polls closed in western states. This caused such anoutcry that the networks had to delay “declarations” until the last polls had closed, although surveys commissioned by the networks indicated this action was not warranted. The 1968 election was most notablefor the debacle outside theDemocratic convention in Chicago. Mayor Richard Daley tightly controlled the city and the locationof cameras by the networks. It was not enough. When his police and theyouthful antiwar and antiestablishment demonstrators clashed in front of the convention hotels several nights running, home viewers were treated to the dichotomy of calm inside the hall, as Vice President Hubert Humphrey became the nominee, and riots outside. Several reporters were arrested or roughed up inside the hall as well as outside, as the Daley forces sought to retain control in what was called a “police riot” in one official report, There were bitter postconvention assertions that television had biased viewers by covering the riots while neglecting the scheduled convention events. The networks replied that both were news events worthy of coverage. Daley supporters also claimed that thepresence of the television cameras stimulated therioting. The entire event was a primehunting ground for researchers and contributed to Humphrey’s subsequent loss at the polls. Convention coverage differed from previous years. ABC did away with its daytime and evening-long gavel-to-gavel coverage and concentrated its report into the late evening hours, and thus gained a ratings advantage by preserving its entertainment programs.
9.6 Program Specialization andCycles
453
The 1968 campaign and the off-year elections of 1970 brought the talents of the professional image-makers fully into focus. Joe McGinniss’ devastating The Selling of the President1968 exposed the mediacampaign behind Nixon, and many other candidates were accused of having been packaged and sold like consumer goods. Debate raged over the effects of television and othermedia usage, and experts analyzed the massive amounts of money that had been spent on mass media in attempts to persuade or even “buy” voters. By 1972,however, it was clear that television and image-building alone would not do the trick, and the image merchants lost some of their glamour and appeal. Expenditures on radio and television in the 1972 campaign, however, came to $60 million as compared to only $14 million spent on broadcasting in the 1960 race. Nixon, whose Committee to Reelect the President (CREEP) greatly outspent Democratic candidate Senator George McGovern,won by a landslide. As a result, a new federal law was passed that was designed to crimp the costs and style of campaigns after 1972. The 1976 election campaign featured an old wrinkle-the “great debate” format pioneered in 1960 (see pp. 381-382). Late in 1975,in response to a petition from the Aspen Institute, the FCC revised its interpretation of Section 315. Its “Aspen ruling” held that debates and other coverage of candidates would be exempt from the equal opportunities provisions of the law if such political events were arranged by groups other than the candidates or the broadcasters, and if that broadcast coverage was “incidental” to the event taking place. Gerald Ford, in accepting the GOP nomination in August (after a tightly fought battle with former California Governor Ronald Reagan),challenged the Democrat’s GovernorJimmy Carter to a series of debates-an unusual action for a sitting President, but taken because Ford was then far behind in the polls and was bit unsure a of himself, never having run ina presidentialcampaign before. There eventually were three debates between the presidential candidates, plus one between the vice presidential candidates, Senators Walter Mondale and Robert Dole. To comply with the FCC ruling, all were sponsored by the League of Women Voters, which had gotten practice with Democratic primaries during the Spring. As in the 1960 debates, when Nixon’s appearance in the first debate cost him heavily, so did the debates affect the 1976 campaign. In the second debate, President Ford asserted quite clearly, and repeated when questioned, that Eastern Europe was not under Soviet domination. His campaign lost 10 days trying to explain that statement away, and the lost momentum likely cost him the election. Carter had appeared weak in the first debate (which had its audio cutoff for 28 minutes due to a technicalfailure), but Ford’s error in the second appeared to have greater impact in the end. Carter won theelection. The 1976 elections were the first to be heavily covered using flexible electronic news-gathering (ENG) equipment, at both national and local levels.
454
Chapter 9 AccommodationandAdjustment
(1961-1976)
9.7 Audience Ratinesand Research As much as the 1950shad beendepicted as the Age of Television, it was not until the 1960s that we really began to determine how television was affecting us. Much research centered on the effects of television on children and youth, butthere also was concern over its broader consequences. Radio was in 96% and television in 90% of American homes at the beginning of this period, so growth in number of television homes slowed, although the number of television sets increased as people bought their second and third. Three-quarters of American homes had color sets by 1976. Transistors made radio and television sets smaller and lighter, and more and more sets were imported each year, first from Germany and then increasingly from the Far East. By the late 1960s’ largely due to the labor economics of manufacturing abroad, virtually no radio receivers and very few black-and-white television receivers were manufactured in the United States, although U.S. firms had some foreign plants. In 1961, only 70% of cars had radios, but by the mid-1970s nearly 90% had, a substantial minority had addedshort-range transceivers in the Citizens Band, and even more had FM. Digital clock radios were popular in the 1970s, and very tiny transistor radios could be bought for as little as$5, with novelties-radios built into earphones or toilet paper holders-easilymade. Most homes of the early 1960s did not have the ability to receive UHF telecasts (see p. 383) and therefore UHF stations could not compete adequately with VHF stations in the same market. But in July 1961 the FCC proposed requiring all television sets be able to receive all channels. Congress approved the proposal in return for the commission’s dropping all consideration of deintermixture (see p. 387 ff.), and President Kennedy signed the billin July 1962, to take effect in mid-1964. Thanks to the steady market in portable and, after 1965, color television, the proportion of homes capable of receiving UHF broadcasts increased sharply from about 10% in 1961 to 90% in 1976. This act finally brought the UHF stations into the club, even though UHF tuners did not measure up to VHF tuners in quality in the sameset until the manufacturers were pushed by theFCC in the late 1970s. The all-channel act was not the wholeanswer, but it helped immensely. Noting the success of television’s all-channel bill, those concerned with FM radio’s lack of financial success tried but failed to get a bill passed that would require AM and FM capability in all radio, including automobile, receivers. The cost differential and manufacturer-dealer indifference held automobile FM radio sales down in the 1960s, preventing FM stations from cashing in on AM radio’s big audiences in morning and evening drive time. By the early 1970s, FM saturation was about 60% compared to UHF’s almost nonexistent capability when the 1962 all-channel television bill was being considered-thus reducing the need for all-channel radio legislation.
9.7 AudienceRatingsandResearch
455
9.7.1 ViewingTrends andRatings Problems
Gammme
By 1961, 89% of the nation’s families had a television s e t 4 7 2 million families. By late 1976,97% ownedtelevision, but that smallpercentage increase covered a growth of more than 22 million families as the population rose. Thanks largely to the coming of color in the mid-l960s, retentionof first-generation sets, and the relatively low cost of black-and-white portables, the proportionof multiset homesrose from 13% in 1961 to more than 45% by 1976. This is a far cry from the corner tavern announcing withgreat excitement in thelate 1940s: “We have television!’’ The basic pattern of television viewing remained as it had in the 1950s: Viewing was higher in Winter than in Summer and peaked between 8 P.M. and IO P.M. Color-set owners viewed about seven hours a week more televisionthan monochrome-set owners. Average dailyhouseholdviewing slowly increased from about five hours in 1961 to about 6 1/4 hours in 1976. Roper (1977) collected data for the Television Information Office (TIO) that showed median individual viewing rose from 2 1 7 (two hours and 1 7 minutes) in 1961to 2 5 3 in 1976. Families with childrenmade heavier use of the set, andoverall viewing decreased a bit as education and income increased; to 224 for the college educated and 2 4 0 for those in upper economic brackets. Women viewed the most and teenagers the least, while persons over 55 of either sex did themost viewing of all. Viewership information, constantly updated, was generated by the two chief national ratings firms: the A.C. Nielsen Company, which had dominated national television ratings since 1949, and the American Research Bureau (ARB), later called Arbitron. After 1964 radio was measured only in local markets. At that point, radio was in 94% of American homes, sets were in use about 15 hours a week-down sharply from pretelevision days-and home receivers were giving way to portable and automobile sets, which were hard tomeasure. The radio patternof listening remained the reverse of television-steady, except for a peak in the early morning, a brief spurt duringafternoon drive time,especially in large cities, anda drop during television prime time. The ratings themselves were in and out of trouble. Rumors of fraud and overdependence on ratings led to investigations in 1960-1961 by Congress, which commissioned an intensive investigation of ratings methods. The resulting report noted important shortcomings in ratings sampling and survey techniques, statistical standards, and use. In 1963-1964, the House Commerce Committee heldfurther hearings, which included a 10-day grilling of top A.C. Nielsen personnel and uncovered shortcuts and skimping in research techniques that could cause significant differences in the results. Other firms also were examined, including a small company that faked much of its data in theback room, but theimportance and problems of Nielsen took up much of the long hearings. From this investigation and its aftermath came several organizations intended to clean up the ratings and
456
Chapter 9 Accommodation andAdjustment (1961-1976)
their image. The Broadcast Ratings Council included representatives of networks, broadcasting organizations, and advertisers to oversee ratings operations, making sure-for the benefit of advertisers as well as public relationsthat gathering and reporting methods for ratings were valid and reliable and met standards for acceptable accuracy. The Committee on Nationwide Television Audience Measurements (CONTAM) was created by and for the networks to conduct a series of studies to find better ways to derive program ratings. In the1970s, both organizations became involved with generating positive publicity and information on the ratings system on which networks, advertisers, and stations mutually survive. Statisticians agree that ratings firms now use generally sound methods, although the publicity they engender in station andnetwork promotion efforts might be questioned, and some advertisers and ad agencies place far more reliance upon them than iswarranted. Just as theLazarsfeld studies in the1940s described the peak period of radio listening andBogart’s 1956 volume showed therise of television, two books after 1960 demonstrated television’s hold on the American public. The first was Gary Steiner’s The People Look at Television (1963),based on a 1960 nationwide survey (with a substudy of New York viewers) underwritten by CBS. It showed that television generally had replaced other means of socialization, and that its popularity and use were high in nearly all sectors of the populationexcept for those of high education andincome. Although viewers nearly always claimed to want more cultural or educational programming when asked about program balance, they usually would pick more entertainment content when given a choice of material. Reactions to overall programming and advertising were highly positive; television was the one nonessential item in the typical home that was regarded as nearly essential. A decade later this study was repeated, again with support from CBS, in Robert Bower’sTelevision and the Public (1973). This updategenerally supported the earlier findings, although the public’s fascination with television had worn off-it no longer was a constant topic of conversation and viewers were more critical of it. Television’s impact as a news source was greater than in 1960, and parental concern and control over children’s viewing were stronger than a decade earlier. Here the specific market surveyed was Minneapolis-St. Paul, and again viewers spoke of desiring more educational and cultural programming, while generally ignoring that choice when it was available. Researchers suggested that in both surveys viewers may have considered cultural programming a “proper response,”regardless of their viewing preferences. Issued about every two years, starting just after the quiz show scandals, were the Roper studies sponsored by the Television Information Office, an arm of the NAB, on what the public thought of television vis-&vis other media. Early editions drew newspaper criticismfor using a method whereby multiple responses showed television as far and away the most believed
9.7 AudienceRatingsandResearch
457
and most used news medium.Some of the questions used in these studies dated back to Lazarsfeld’s workin the early 1940s, providing a longitudinal look at public reaction to broadcasting. 9.7.2 Television and Children: Phases Two and Three
The Kefauver hearings on television and juvenile delinquency in the mid1950s (see p. 386) was theprecursor of an even more intensive investigation in the early 1960s. The new probe came about because people were increasingly concerned over violence in the streets, juvenile delinquency, and the possibility that this behavior was related to violence in television programs, Some senators and staff membersfelt that broadcast self-regulation was not reducing violence on the air; others were well aware of the publicity value of hearings on this subject. In addition, some newresearch had suggested a direct cause-and-effect relationship between media violence and violent activities by viewers. In June 1961, Senator Thomas Dodd (D-Connecticut) opened what became nearly three years of intermittent hearings. In addition, the results of three committee staff monitoring reports of television content in 1954, 1961, and 1964 showed incidents of violence-a very difficult concept to define validly-on television to be increasing, especially at hours when childrenmight be watching. This second phase of concern over children and television ended late in 1964 with the publication of the hearings and a mimeographed interim report. That the final report never appeared and theinterim report had limited distribution spoiled the potential effect of the hearings. The subcommittee suggested greaterprime time network efforts in programming forchildren, revision of the FCC station application form to clarifythe minimal public service and children’s programrequirements, addition of sanctions to give teeth to the NAB code, a mechanism for the public to voice its opinions of television, and the need for further research. The implied threat was congressional action if the industry did not police itself as it had promised in 1954. These issues simmered until1968. That year, in response to the assassinations of Senator Robert Kennedy and the Reverend Martin Luther King, Jr., President Lyndon Johnson created a Commission on the Causes and Effects of Violence with Milton Eisenhower as chairman. The commission’s report contained a chapter on mediaviolence and, more importantly, a lengthy staff report in book formon theissues and questions of media and violence. Other staff reports, accusing broadcasters of failing to clean up violence on the tube, ledto Senate action some monthslater. Senator John Pastore (D-Rhode Island), powerful chairman of the Communications Subcommittee of the Senate Commerce committee, wrote to the Surgeon General in March 1969 requesting creation of a research panel to evaluate the research literature and conduct original studies on the relation between television and violent behavior. Within six weeks, a research program
458
Chapter 9 Accommodation and Adjustment (1961-1976)
I
Television Violence:TheSurgeonGeneral’sCommitteeReports (January 1972) The following conclusions of the best-funded research program
n
into the effects of television are agood example of the imprecision of much social science research. Newspaper accounts of the cautious qualifications contained in t h e committee reports varied widely. See pp. 556 ff for similarconclusions reached a decadelater.
. ..
there is a convergence ofthe fairly substantial experimental evidence short-run for causation of aggression among some children by viewing violence on the screen and the much less certain evidence from field studies that extensive violence viewing precedes some man/ong-run ifestations of aggressive behavior. This convergence of the two types of evidence constitutes some preliminary indication of a causal relationship, but a good deal of research remains to be done before one can have confidence in these conclusions. The field studies, correlating different behavior among adolescents, and the laboratory studies of the responses by younger children to violent films converge alsoon a number of further points. First, there is evidence that any sequence by which viewing television violence causes aggressive behavior is most likely applicable onlyto some children who are predisposed in that direction. . Second, thereare suggestionsin both sets of studies thatway the children respondto violent film materialis affected by the context in whichit is presented. Such elements as parental explanations, the favorable or unfavorable outcome of the violence, and itwhether is seen as fantasy or reality may makea difference. Generalizations about all violent content are likely to be misleading. Thus, the two sets of findings converge in three respects: a preliminary and tentative indication of a causal relation between viewing violence on television and aggressive behavior; an indication thatany such causal relation operates only on some children (who are predisposed to be aggressive); and an indication thatit operates only in some environmental contexts. Such tentative and limited conclusions are not very satisfying.They represent substantially more knowledge than we had two yearsago, but they leave many questions unanswered.
..
Source: The Surgeon General’s Scientific Advisory Committee on Television and Social Behavior, Z&vision and Growing Up: The Impact of Televised Violence. (Washington: Government Printing Office, 1972), pages 17-19.
had been created and funded with $1.5 million from existing budgetssomething of a record for this sort of government action. Unfortunately, both politics and industry pressure worked against constructive results. The 1 2 researchers appointed to the panel included five from the networks, three from the academic research community, and “the naive four” with no background in thesubject. The committee let contracts for 23 laboratory and field studies by a wide variety of researchers, as well as some literature review and synthesis. However, having been given a de facto veto power, the networks blackballed several well-known televisionviolence researchers as being no longer impartial since their opinionswere well known-and allegedly antinetwork. The results were in by late 1971, and the report of the committee, issued in January 1972, appeared to have been written quickly and under pressure. Its inconclusive conclusion was that television violence can affect some of the viewers some of the time. This was not a new notion. Some of the studies themselves, however, published in full shortly after the report, pointed far more strongly to the conclusion that television violence does indeed help stimulate violent
9.8
Regulatory Confusion
459
actions by someviewers in both short and long run. Controversy boiled in the tradeand public press, and in hearings held byPastore to sort out what the research expenditure and effort really meant. While there was criticism of the networks’ role in the formation of the paneland writing of the report, broadcasters hailed it as clearing them of a never-admitted responsibility for causing violence. Critics said, “Ignore the report and look at the studies.” Academicians worked over the data and strove to improve the questioned methodologies as well. And there it probably would have died, like the earlier studies, except for one key difference. The 1970s was a period of vocal citizens’ action groups (see p. 473), and one of the most vocalwas Action for Children’s Television. ACT had been formed by a group of Boston-area mothers concerned about violence on the air and excessive commercialism aimed at children, both onSaturday mornings and in other hours when childrenwere likely to be viewing. ACT and other groups helped arouse public opinion to the extent that the industryand the commission, particularly after Richard Wiley became chairman in 1974, finally took action. The networks agreed to the suggestion from CBS president Arthur Taylor that, starting in Fall 1975, prime time network programming, except for news, before 9:00 P.M. (Eastern and Pacific time) would be for “family viewing” (see pp. 472-473) with limits on thedepiction of violence. In addition, after 1972most violent cartoons were removed from children’s morning and weekend network programming. Critics agreed that the amount of violence was diminishing in the 1970s,but thedisagreement over the definition of violence was illustrated in disputes over the findings by George Gerbner of the University of Pennsylvania, who regularly issued neweditions of an “index” (later dubbed a “profile”) that reported the incidence of violence on all network television programming. ACT, Pastore, and many researchers, critics, and other politicians kept this matter in the public eye-now that the incidence of real-life violence (coverage of the Vietnam War) no longer occupied as much of the evening news before “family viewing.”
9.8 Regulatory Confusion
nen
The regulatory scene became much more complicated in the 1960s and early 1970s for several reasons. First, conflicting views arose because there were more participants involved: new broadcasting stations, new groups familiar with andinvolved in the regulatory process, and new media-cable systems and potential operators of pay-TV and cable systems. Second, events had forced participants to look at problems in new ways. Earlier they had discussed the Fairness Doctrine, cable and broadcast television relationships, and ownership and control, but now these issues became much more salient and controversial and often intractable. Third, theproliferation of stations and services, such as FM and public television, together with
460
Chapter 9 AccommodationandAdjustment
(1961-1976)
such closely related media as audio and video recordings, produced greater competition within the industry. Fourth, and increasingly evident in the years to follow, was thebeginning of a fundamental rethinking of the role of regulation. The very increase in means of program delivery seemed to some observers (especially some conservative economists and politicians) to negate the traditional conception o f broadcasting as a “bottleneck” with a small and finite technological limit on number of outlets in a given locality. If technology’s promise of a future of many channelsand more choice came true, would traditional regulation be necessary any longer? This question was first facedwith respect to cable television (see pp. 467-469).
-
9.8.1 Changing Castof Regulators
On the regulatory scene, older groups changed and newer ones arrived. The FCC was shaken up to an extent not seen since thedays of James Lawrence Fly in the 1940s. In 1961, after the conflict of interest scandals involving Commissioners Doerfer and Richard Mack, President Kennedy appointed thirty-four-year-old Newton Minowto the FCC chairmanship. Minow early served notice of his displeasure with muchof what wasbroadcast when he spoke before the NAB of television as a “vast wasteland” (see this chapter’s opening quotations) requiring more high quality television programming. The phrase caught on with the public. While the industry fretted over the newly critical FCC, Minow helpedprovide a Kennedy “NewFrontier” activism to commission decisions. However, he was hamstrung by more conservative holdover appointees and, soon frustrated, he returned to private law practice in 1963. Minow was replaced by an even younger activist chairman, E. William Henry, until 1966. After Henry’s departure, veteran Commissioner Rose1 Hyde became chairman but could not readily control Commissioner Nicholas Johnson’s highly public consumer activism (see below). President Nixon named conservative GOP leader Dean Burch as chairman in 1969. Serving until 1973, when he joined the White House staff, Burch was considered one of the FCC’s better administrators, with the commission arriving at decisions in several controversial areas (particularly CATV) just before his departure. He also kept the FCC’s factions communicating. Burch and Johnson both left in 1973, and General Counsel Richard Wiley was elevated to commissioner and in 1974 to the chairmanship. Wiley proved to be an even better administrator than Burch, establishing an atmosphere of hard work and more timely decision making. During much of the 1960s’ the team of Kenneth Cox and Nicholas Johnsonissuedreportsanddissents attacking broadcasting organizations and practices, persuaded the commission to hold a couple of wellpublicized citizens’ gripe sessions outside of Washington, and supported greater citizen action to upgrade public service broadcast programming, Their approaches were different;Cox was generallylow key, but the youthful
9.8 Regulatory Confusion
461
Johnson quickly took his campaign to the public. Johnson built a constituency with books like How to Talk Back to Your Television Set (1970), many articles and speeches, anddetailed dissenting opinions to FCC decisions. He sometimes shot from the hip, but he awakened public interestand made people feel that they hada voice on thecommission. At the opposite end of the political spectrum was Commissioner Lee Loevinger, one of the brightest men ever to serve on the FCC, a strong conservative whose wellhoned legal mind generally matched the liberalism of Cox and the more radical opinions of Johnson. Both Johnson and Loevinger had been appointed to the FCC because they had ruffled too many feathers on earlier governmental jobs; Loevingeras head of the antitrust divisionof the Justice Department and Johnsonas head of the Maritime Commission. President Nixon soothed the broadcasting industry with his appointment of commercial broadcasters Robert Wells and James Quello but aroused the ireof consumer and minoritygroups. Yet Nixon also appointed the first black on the FCC, Benjamin Hooks. Hooks started quietly but by 1974 was making stronger statements on the place of minorities in broadcasting-and probably stepping on toes by insisting on enforcement of equal employment opportunity rules, even for PTV stations. Nixon also named the second woman to serve on the FCC, Charlotte Reid, who was much less important to the commission’s deliberations than the first (see p. 291).For much of the period, thecommission was ideologically divided. By the late 1960s the FCC, designed in 1934, was beginning to suffer from overload, but in the 1970s it was nearly swamped. Regulating interit spent an increasing state telephone and telegraph as well as radio, amount of time on complicated safety and special service rules, communication satellitepolicy, cable television, and processing paperwork for more than 9,000 broadcast and millions of other licenses. It had to act on everything: from the millions of letters insisting thata petition to require fairness on religious-body-owned stations was a “petition against God”-an attempt to remove all religion from the air-to the occasional complaint about obscene programming, particularly on educational stations-the Pacifica Foundation’s WBAI, the University of Pennsylvania’s WXPN-since few commercial broadcasters would so risk their licenses. As new technology and innovations madelong-range policy questions more insistent, the FCC had even less time thanin the 1930s to consider them. Two kinds of studies had been undertaken to examine the FCC’s policies and efficiency, particularly in the decision-making process. First were those concerned with organization-one conducted for the 1949 Hoover Commission on executive branch organization, one prepared under Judge Landis’s direction for President Kennedy, and one prepared under Roy Ash’s direction for President Nixon. Second were those concerned with telecommunication policy-the President’s Communications Policy Board established by President Truman, and thePresident’s Task Forceon Communications Policy, reporting to President Johnson at the very end of his term.
462
Chapter9AccommodationandAdjustment(1961-1976)
In response to some of these analyses and theshortcomings of the FCC, and in order to accumulate more immediate power, President Nixon proposed to Congress early in 1970 that the Officeof Telecommunications Management, a White House staff agency primarily concerned with government agency spectrum use and assignment, be converted to an Office of Telecommunications Policy (OTP). It would have a broader purview, including supervision of the more than 50-year-old Interdepartmental Radio Advisory Committee, and would be located within the Executive Office of the Presidentto show itspower to speak for the executive. The plan was activated in April, and Rand Corporation researcher Clay T. Whitehead was named to head the OTP. It quickly became clear that, while OTP would provide needed long-range policy planning and research, using facilities of the Office of Telecommunications in theDepartment of Commerce, its function was more actually political than technical. OTP’s first major coup was engineering a compromise between NAB and NCTA in Fall 1971 that led to the 1972 FCC cable rules (see pp, 467469). Soon it was involved in seeking five-year license terms for broadcasters, a major broadcaster goal formost of this period; VHF channel dropins in large markets ostensibly to broaden competition; limiting program reruns, a result of administration concern for unemployment in the West Coast entertainment production unions;financing for public broadcasting; and limiting the Fairness Doctrine. After the demise of the Nixon administration in 1974, OTP almost dropped from sight and Whitehead resigned. Although it was kept alive by members of Congress who realized the potential valueof long-range policy and research, after 1973 OTP had little of the power it once had, when theFCC, broadcasters, and many citizens had cause to become increasingly concerned about White House encroachment onto commission regulatory territory. A third participant in the regulatory arena, in addition to the FCC and OTP, was the U.S. Court of Appeals for the District of Columbia, which the 1934 Communications Act had designated to hear most appeals from FCC decisions. Until the 1960s it usually had backed up FCC decisions on appeal, seldom taking it to task unless procedures had been badly mismanaged, and many broadcasters looked on it as the enforcement arm of the commission. Changing membership on the court, which has nine membersthree of whom normally sit on a given case-and changing public pressures, however, changed the court’s view of the FCC and the industry. This new view was brought home with a vengeance in March 1966 when a three-judge panel overturned an FCC decision that had refused to let a citizens’ group participate in a license-renewal case. The Office of Communications of the United Church of Christ, headed by Everett Parker,had sought to speak for the 45% black population of Jackson, Mississippi, for the purpose of denying license renewal to WLBT. The panel of judges, in what became a landmark case, held that the public was entitled to participate (or have “standing”) in such proceedings. Hitherto, such matters had been between broadcasters and
9.8
Regulatory Confusion
463
the FCC, claiming to act on behalf of the public, and sometimes other broadcasters with aneconomic interest. By granting other citizen groups the right to be heard before the FCC, the court expanded public access to the decisionmaking process. In 1969, the court went further in the same case, ordering the FCC to lift WLBT’s license and assign it to an interim operation-a very rare action-until a new “permanent” licensee could be selected. The decision spoke of the FCC’s “curious neutrality in favor of an existing licensee.” By 1970 some industry observers were referring to this increasingly independent andanti-FCC court as “broadcasting’s preemptive court.” Public interest groups rapidly understood that, if the FCC denied them standing or access, they couldoften obtain it on appeal. The preemptive role of the court seemed to expand by the mid-1970s. Responsibility for long-range broadcast policy in Congress switched from the Senate (where longtime Communications Subcommittee head John Pastore retired late in 1976) to the House Communications Subcommittee under Torbert Macdonald (D-Massachusetts) and then Lionel Van Deerlin (D-California). With a professional and knowledgeable staff, the subcommittee held hearings into many aspects of communications, expressed concern about the limited role of cable versus broadcasting, and looked into thevaried interrelationships of point-to-point communications and the broadcast-cable media. Late in 1976, Van Deerlin announced the subcommittee’s most extensive project yet, aimed ata complete review and probable rewrite of the 1934 act (see pp. 562-566). 9.8.2 Fairness on the Air
The FCC’s Fairness Doctrine (seepp. 332-333) caused controversy during the 1960s and 1970s. Politics, cigarette advertising, the Vietnam War, and other matters were reflected in thegrowing body of case law. Congress had perhaps inadvertently provided a seeming statutory base forthe Fairness Doctrine in 1959, when it amended Section 315 (the political “equal opportunity” section of the Communications Act) tonote that nothing exempted broadcasters from their responsibility . . .to affordreasonable opportunity for the discussion of conflicting views on issues of public importance.” The Supreme Court’s Red Lion decision in 1969 (see box on pages 464-465) firmly supported the idea that the concept of fairness, which was intended to benefit the average citizen and viewer and which previously had been included under the “publicinterest” standard, now had itsown statutory authority. The FCC published specific regulations on the “personal attack” aspects of fairness in 1967 and 1968, and public notices that codified the case law and defined proper and improper adherence to the “controversial issues” aspects of the Fairness Doctrine-rigid rules for editorials-the station would have to seek out opposing views-and even more rigid rules for informing, providing texts, and providing rebuttal opportunities for persons who felt attacked. In l‘
464
m
Chapter 9 Accommodation and Adjustment (1961-1976)
Rise of the Fairness Doctrine: 1941-1974
January 16,1941 Radio can serve as an instrument of democracy only when devoted to the com-
munication information and the exchange of ideas fairly and objectively presented. A truly free radio cannot be used to advocate the causes of the licensee. It cannot be used to support the candidacies of his friends.It cannot be devoted to the support of principles he happens to regard mostfavorably. In brief, the broadcaster cannot be an advocate. FCC, Mayflower Decision, 0 FCC 333.
June 1,1949 To recapitulate, the Commission believes that under the American system of broad-
casting the individual licensees of radio stations have the responsibility for determining the specific program materialto be broadcast over their stations. This choice, however, must be exercised in a manner consistent with the basic policy of the Congress that radio be maintained as a medium of free speech for the general public as a whole rather than an outlet as for the purely personal or private interests of the licensee. This requires that licensees devote a reasonable percentage of their broadcasting time to the discussion of public issues of interest in the community served bytheir stations and that such programs be designed so that the public has a reasonable opportunity to hear different opposing positions on the public issues of interest and importancein the Community. The particular format best suited for the presentation of such programs in a manner consistent with the public interest must be determined by the licenseein the lightof the factsof each individual station. Such presentation may include the identified expression of the licensee's personal viewpoint part as of the more general presentation of views or comments on the various issues, but the opportunity of licensees to present such views as they may have on matters of controversy may not be utilized to achieve a partisan or one-sided presentation of issues. Licenseeeditorializationis but one aspect of freedom of expression by means of radio. Only insofar as it isexercised in conformity with the paramount right of the public to hear a reasonably balanced presentation of all responsible viewpoints on particular issues can such editorialization be considered to be consistent with the licensee's duty to operate in the public interest. For the licensee is a trustee impressed with the duty of preserving for the public generally radio as a medium of free expression and fair presentation. FCC, "in the Matter of Editorializing by Broadcast Licensees,"13 FCC 1246, paragraph 21.
September 14,1959 Nothing in the foregoing sentence[a modification of the "equal opportunities" for political candidates clause in Section 315 of the Communications Act of 19341 shall be construed as relieving broadcasters,in connection with the presentation of newscasts, news interviews, news documentaries and on-the-spot coverage of news events from the obligation imposed upon them under this Act to operatein the public interest and to afford reasonable opportunity for the discussion of conflicting views on issues of public importance. Public Law 86-274,86th Congress(amending the 1934 Communications Act).
addition to broadcasters, those who opposed FCC intervention in programming on First Amendment grounds were unhappy about these steps. A landmark case began with a 15-minute recorded program in which right-wing preacher Billy James Hargis attacked Fred Cook, author of a book critical of Senator Barry Goldwater, the Arizona conservative Republican candidate for President in 1964. Around 200 stations carried the program, and Cook, apparently with some support from the Democratic Party, claimed time to reply from all of them. Most offered him the free time required under FCC fairness rules. But WGCB-in the small town of Red Lion, Pennsylvania, 75 miles west of Philadelphia-sent him a rate card
9.8 Regulatory Confusion
465
It is the rightof the viewers and listeners, not the right of the broadcasters, which is paramount.. It is the purposeof the First Amendment to preserve an uninhibited marketplace of ideas in whichtruth will ultimately prevail, rather than to countenance monopolization of that market, whether it be by the Government itself or a private licensee.. It is the right of the public to receive suitable accessto social, political, esthetic, moral, and other ideas and experiences which is crucial here.. . . In view of the scarcity of broadcast frequencies, the Government's role in allocating those frequencies, and the legitimate claims of those unable without governmental assistance to gain access to those frequencies for expression of their views, we hold the regulations [Public Attack Rules] and ruling [Fairness Doctrine] at issue here are both authorized by statute and constitutional.
June 9,1969
.
.
Supreme Court decision in Red Lion Broadcasting Co.v. FCC, 395 U.S. 367.
May 29,1973 If broadcasters were required to provide time, free when necessary, for the discussion of the various shadesof opinion on the issue.. .the affluent could still determinein large part the issues to be discussed. Thus.. a right of access.. .would have little meaning to those who could not afford to purchase time in the firstinstance. to editorial advertising, thereis also the substantial danIf the Fairness Doctrine were applied ger that the effective operation of that doctrine would be jeopardized.To minimize financial hardship and to comply fully withits public responsibilities a broadcaster might well be forced to make regular programming time available to those holding a view different from that expressed in an editorial advertisement. . . .The result would be a further erosion of the journalistic discretionof broadcasters in the coverage of public issues, and a transfer of control over the treatment of public issues from the licenseeswho are accountable for broadcast performance to private individualswho are not. Thepublic interest wouldno longer be "paramount" but rather subordinate to private whim. . .. The congressional objective of balanced coverage of public issues would be seriously threatened.
.
Supreme Court decision in Columbia Broadcasting System, Inc. v. Democratic Nafional Committee. 41 2U S 94.
June 25, 1974 The clear implication has been that any such a compulsion to publish that which
"'reason' tells them should not be published" is unconstitutional. A responsible pressis an undoubtedly desirable goal, but press responsibility is not mandatedby the Constitution and like many other virtues it cannot be legislated. Supreme Court decision in Miami Herald Publishing Co.v. Tornillo,418 U.S. 241.
See also "Fall o f the Fairness Doctrine"on pp. 568-569.
offering to sell reply time. Cook appealed to the FCC, which ordered the station to give the time. On WGCB's refusal, the issue entered the courts, with the station losing at all levels, and eventually reached the Supreme Court of the United States. There, it was combined with another case, in which the Circuit Court of Appeals in Chicago had upheld the attemptof the Radio Television News Directors Association to modify or loosen the editorializing and personal attack rules that they thought had restricted broadcast journalism. The two opposing decisions helpedmake these cases a fit subject for Supreme Court adjudication. TheRed Lion Broadcasting Co. v. FCC decision in June 1969 was the most important broadcast-related
466
Chapter 9 AccommodationandAdjustment
(1961-1976)
court decision since the 1943 network case (see pp. 210-212). The court upheld the FCC’s editorializing and personal attack rules and its right to enact a Fairness Doctrine, reaffirming the paramountimportance of the listener or viewer under the 1934 Communications Act. In the early 1970s, two cases limited theFairness Doctrine, The Business Executives Move for Peace in Vietnam (BEM) and the Democratic National Committee (DNC) tried separately to get broadcasters to sell them advertising time to comment on current issues of public importance. The broadcasters turned them down. In a 1973 decision, the Supreme Court upheld the commission’s refusal to overturn broadcasters’ judgment, suggesting that toallow such sales might undermine thelicensees’ decision making and responsibility for content aired over their stations. The ostensible purpose of the Fairness Doctrine was to give the public access to more than one side of a controversial issue. Although a branch of the doctrinegiving an individual who has been subject to apersonal attack an opportunity to reply was codified into the FCC rules, most controversial issuecases were decidedin accord with the principle that the publicdeserves to receive opposing views on controversialmatters of public importance. The FCC’s decisions on controversial issue cases became increasingly involved and confusing to both broadcasters and the public. Many mistakenly thought that only the two most salient points of view onany given issue needed to be aired, or that carefully measured “equal time” was required, or that broadcasters should have no say in how different points of view were to be expressed. To help guide licensees, the FCC issued a primer in 1964,conducted a dialogue from 1971 through 1974 on all aspects of the doctrine, and issued a long public notice in 1974.Many still weren’t sure what wasrequired. Some critics complained that the doctrine was still too vague, that it involved government meddling in key areas of programming, and that its requirements might keep broadcasters from any discussion of controversial issues for fear of having to defend themselves before the FCC. Communications attorney Jerome Barron, among others, believed that the public interest would beserved better by unlimited access to the airwaves by all who want than it by fairness left in the handsof the broadcaster. Bills to abolish the Fairness Doctrine were often introduced, reverting to an absolute view of the First Amendment stricture that “Congress shall pass no law” in thisarea. Yet many others, notably members of minority groups, rely on the doctrinefor the opportunityto air their views. A decade later, in the late 1980s,all of this debate had escalated substantially (see pp. 567-569). Although not part of the Fairness Doctrine as such, during the early and mid-1970s the FCC became active in supporting equal employment opportunity in the broadcasting industry, byrequiring stations regularly to submit data on minority and female employment, and by considering such matters in comparative and license renewal hearings. The WLBT case
9.8 Regulatory Confusion
467
(see pp. 462-463), in fact, involved claims of discrimination against blacks, both in employment and inprogram content, as did theFCC’s 1975 action refusing to renew the licenses of eight stations of the Alabama educational television network. The lattercase marked thefirst time a public television license had been lifted-though after litigation the chastened Alabama authority resumed control. 9.8.3 The Cable Conundrum
llllBl
Although cable systems had provided limited television service-from one to three channels-to small communities since 1949 (see pp. 355-356), their competition with television stations was not immediately apparent. In the late 1950% broadcasters began to object seriously to cable picking broadcast programs off the air and selling them to subscribers, with broadcast stations and program originators getting nothing for the use of their product. But there was littlelocal or state regulation of cable until theearly 1960s, and the FCC was contending that it could not federally regulate cable under the1934 act because it was nota broadcasting service and was intrastate in nature. In 1959, the FCC issued its fist analysis of the relationship between CATV and broadcasting, focusing onthree former UHF stationsthat claimed cable had helped force them off the air by not carrying their signals. Some leading cable operators pushed for federal regulation so as to avoid a confusion of local and state rules, while others wished to maintain the local orientation of their industry. In a 1962 case, the commission decided to take limited regulatory control over systems that used microwave relay to bring in distant signals (beyond off-air pickup range) to the head end, and imposed carriage and nonduplication rulesto protect broadcast licensees from economically damaging conditions. to cover both intra- and In 1965 the FCC expanded its microwave rules inter-state cable systems, and required that they carry any television station within 60 miles when requested to, and that they refrain from showing the same shows from a distant station for 15 days before or after the local television station airing. Less than a year later, another order limited CATV growth in the country’s top 100 markets by requiring such systems to get specific approval for carrying distant signals. This was based on the belief that both cable and UHF would grow best in urban areas, because of the density of the population and lower costs of reaching that audience and that, if cable were unrestricted, financially weak local UHF stations might be forced off the air. The likelihood that cable would serve only parts of a given urban area, certainly not as great an area as a station, made itless in the public interest. The Supreme Court upheld the FCC’s authority to regulate cable if that authority was related in some way to the commission’s statutory
468
Chapter 9 AccommodationandAdjustment
(1961-1976)
The Cable Regulatory Cycle Unlike the much longer trek of broadcasting from virtually no regulation in the1920s to pervasive regulation just a few years later and deregulation in the 1980s,cable television passed from no regulation to severe restrictions-and back to virtually no regulation-in just under two decades. Later events on this chart are discussed on pp.574-575 and 672-673.
R
Changing CableRegulation FCC begins to re-analyzeits
SuPemecourt upholds FCC and establishes Cable Bureau. cable role Southwestern case. top 100 TV markets.
Copyright Act creates compulsory license for cable;FCC deletes more cable rules. Court of Appeals H80 case questions entireFCC cable rules structure.
n c a i FCC disinterest
rule in 1987). Over nearly four decades, the FCC’s regulationof cable television has undergone substantial changes in direction. of the medium in From virtually no regulation in cable’s earliest years to substantial and detailed FCC regulation 1972, cable was steadily morecontrolled. For the next two decades, cable w a s progressively deregulated, especially with the 1984 cable act that removed most remaining local franchise limitations.In 1992, Congress reversed act, only to change course again four years later. course again and passed a strongly re-regulatory cable
Source: Sydney W. Head, et al, Broadcasting in America:A Survey ofElectronic Media, 8th ed. Houghton M i B n Company, p. 354. Reprinted and updated with permission. Copyright0 1998.
regulatory power over broadcasting in Southwestern Cable Co. v. United States (1968). The next year, the FCC proposed that cable systems with more than 3,500 subscribers be required to originate some programming over one of the average of six to eight channels they carried. Court challenges delayed the effective implementation of this order, and it was eventually dropped. The so-called definitive FCC rules on cable appeared in 1972. Cable systems were freed to expand in the top 100 markets, although with restrictions on the number and kind of signals they could carry. They had to offer channels to municipal governments and educational institutions and provide access for members of the public with something say. to New systems had to have at least 20 channels and existing ones had to have them by 1977-although these requirements were later postponed. Systems
9.8
Regulatory Confusion
469
in smaller markets could import fewer signals, as the population was smaller and the harm to over-the-air local television stations might be greater. Older systems could continue to operate under the original, simpler regulations, but newer systems had to follow a maze of mandatory carriage and protection rules. Pay-TV over cable, which even by the late 1960s appeared more likely than pay-TV over the air, was officially permitted in the late 1960s. Specific rules on content,to prevent loss tooverthe-air television of series programs and sporting events like the World 1972rules. Most of the restrictions were chalSeries, were included in the lenged, and the courts and the commission had dropped or modified many of them by1977. Yet, by 1977, the predicted cable revolution or “wired nation” wasnot happening. The downturn in the economy after the Vietnam War caused older systems to have increasing economic difficulties and discouraged expansion and construction of new systems. The largest cable MS0 (multiple system operator), TelePrompTer, had serious reverses, and its president went to jail for bribing city officials to obtain a franchise. Expectations of the big cities becoming fertile markets for CATV were not borne out, and the “public access” channel did not take hold in New York, where it first was tried. Only afew “video freaks” and persons who wantedto see how far they could go with pornographic programming made full use of the channel, reaching a tinyaudience. Although the cable industry gained political friends by offering free service to 1974 candidates, the operators claimed that the three-level regulatory situation-federal, state, and city or other local franchising authority-in some states was stifling development and asked that legislatures “shed a tier” of regulation. The 1972 requirements for 20-channel capacity and originating various services made starting and operating cable so expensive that a fair return seemed doubtful, particularly since many of the best potential markets, underserved by broadcast television, had already been wired. Cable adherents claimed that the FCC was restricting cable to protect broadcasting, while broadcasters objected to the lack of reimbursement from CATV’s “unfair” use of their programs. By 1976, faced with this confusion, and beginning to reassess its whole cable regulatory approach, the FCC decided to postpone implementation of many 1972 rules, including rebuilding. Congress had been holding hearings on revisions of the 1909 Copyright Law for years, with little result, and a firm decision on cable’s copyright liability had to wait until the law was changed, which it was latein 1976, to take effect a year later. Since, under FCC rules from the late 1960s, television broadcasters could not own cable systems within their primary coverage area, the battle lines were drawn, and the NCTA and NAB could find little to agree upon-even when forced to “agree” on copyright liability and licensing under pressure from the FCC and the OTP. In the meantime, as
470
Chapter 9 AccommodationandAdjustment
(1961-1976)
seen in Appendix C, Table 9-Aand 9-B, cable continued to expand slowly, but thewired city or nation was a long way away. 9.8.4 Who Shall Own the Stations?
Monopoly control of broadcasting became an important issue again in the 1960s. The major concern was over the control of television stations, because they attracted by far the largest audience and showedup consistently as the major source of news. The slowly increasing power of group ownersfirms, not networks, owning stations in several different markets-became apparent to Congress and the FCC by the early 1960s. Revived fears of newspaper dominanceof broadcasting led to denial of one license renewal and new rules to keep television networks from controlling any CATV systems or local stations from controlling cable systems in the station’s coverage area. The Justice Department intervened in several “concentration of control” cases. Whether or not a changing cast of commissioners was willing to go so far is uncertain, but the trend was toward “one station to a customer.” Complicating these issues after 1970, members of minority groups became increasingly vocal about their lack of media ownership. The commission’s first major move, in 1965, was to propose that ownership of television stations in the top50 markets be limited to three, only twoof which couldbe VHF. Rather than operate by rule, theFCC proceeded case by case, but it waived the proposed rule in every case and finally killed the idea early in 1968. That year (1965), however, the FCC implemented a new comparative license procedurefor use when two or more applicants desired the same broadcast channel. Key criteria were the applicant’s capacity to attune to local concerns, to favor local control rather than group ownership, andto avoid connections with local newspapers or other broadcast stations. Unlikethe So-market ruling, this procedure was upheld on court review as was the requirement that licensees survey the public and community leadersin order to ascertain the community’s needs. A cold wind blew on broadcasters in 1969 when the FCC voted not to allow the Herald naveler newspaper to retain the license for WHDH, channel 5 in Boston, apparently on grounds of cross-media ownership. Although technically the action stemmed back to the original 1957 grant for the station, whichhad been challenged because of exparte contacts (which were later termed the ‘‘$100,000,000 lunch” by author Sterling Quinlan) and remandedby a court to the FCC for reconsideration, mostbroadcasters felt that their own licenses now were insecure, nomatter how well thestation hadbeen programmed or for how long. In1972, after appeals failed,the Herald Traveler gave up channel 5 to an independent, locally owned consortium and soon went out of the newspaperbusiness. It was a convincing
9.8 Regulatory Confusion
471
demonstration of the importance of television to thefinancial well-being of a newspaper-station combination. The newlicensee of channel 5,operating as WCVB, demonstrated something else: programmingmany hours of locally produced programs a day can be profitable. The unique WHDH decision not only shocked the industry, it also increased the numberof petitions to deny renewal and caused many licensees to fear renewal time-once a simple formality. Their reaction led to FCC concern, triggered by congressional pressure, about the economic and psychological stability of the industry. As a result, it ill-advisedly issued a public notice early in 1970 on comparative broadcast proceedings, stating that the incumbent licensee would be relicensed every three years unless its programming and public service was shown to have been less than adequate. Unless such showing was made, competing applicants would not be considered. Most of the industry naturally liked this idea, but newly vitalized public interest groups and law firms protested. They claimed that theruling was against the intent of the 1934 act, since it essentially gave indefinite licenses to incumbents. The Court of Appeals for the District of Columbia overturned the FCC proposal within a year, leaving some confusion, since the commission had repeatedly said that WHDH would not be a precedent. Parallel developments helped dispel the confusion to some degree. In April 1968,the FCC initiated arule-making docket on ownershipduring the hearings on which it would consider most of the arguments and controversies. The commission adopted a one-to-a-customer rule in 1970,prohibiting common controlof more than a single AM, FM, or television station in the same market. Since many major market operations or partial AM-FM-TV combinations, existing combinawere based on full tions could be retained until thestations were sold. AM-FM combinations could continue, but radio-television combinations had to be divested when sold. long rule-making procedure In 1970 the commissionundertooka on newspaper-broadcast station cross-ownership in the same market (see pp. 211-212). Early in 1975, a rule was issued essentially grandfathering existing cross-media combinations, but requiring divestiture in several small markets where theonly paper and the only broadcast station were under common ownership (see pp. 575-577). 9.8.5 Self-Regulation and CitizenAction 1 1 1 1
The broadcasting industry after 1960 faced the worst heat in its history. While most viewers and listeners were satisfied with their program fare, many public service and special interest groups pressured the industry to improve with respect to advertising, especially commercials for children, amount of advertising time, and types of products advertised; program violence; ownership patterns; access for minority views and talent; portrayal
472
Chapter 9 AccommodationandAdjustment
(1961-1976)
of ethnic and religious groups; and minority and female employment. It was not an easy time to be a defender of broadcasting. Much of television’s public relationseffort was shoulderedby the Television Information Office (see p. 396), which continually issued reports, analyses, newspaper editorial reprints, slide presentations extolling American television, and its well-known survey series on what the public thought about television and other media (see pp. 456-457). TIO’s parent, the National Association of Broadcasters, was affected by internal dissension caused by the wide range of broadcasting services, viewpoints, and goals. Aftera broadcaster-president died, theNAB tried to achieve political visibility by replacing him in 1961 with former Florida governor LeRoy Collins. Collins was a man of convictions, and his sympathetic view of those who would limitcigarette advertising and other issues brought him powerful enemies within NAB, and a relatively short tenure as president. He was succeeded by NAB staff member Vincent Wasilewski, whom the membership liked more, although while he was in office NAB lost many campaigns before the public and Congress. It fought against the ban oncigarette advertising and lost heavily, since even the tobacco companies knew it was time to quit and had retired gracefully-and profitably, since advertising costs went down and sales remained steady-leaving broadcasters holding the bag. NAB then focused on lengthening the broadcast license period to five years and presuming that a license would be renewed unless there were strong reasons against it. That campaign had not borne fruit by the end of this period. The NAB may have raised the First Amendment flag too often-every time somebody suggested the smallest change in American commercial broadcasting. As congressional committees tired of this line, theincreasingly vocal minority and public interest groups became more effective. NAB had to become defensive. The radio and television codes were fiequently revised, but the revisions usually weakened them-except in instances where Congress had shown that tightening of standards was politically essential. The mostserious problem wasthat the codes had noteeth. A station that violated their provisions only lost its right to show the code seal-surely a doubtful deterrent. Such long-banned products as personal hygiene products and hemorrhoid treatments found their way onto the nation’s screens and loudspeakers as commercial standards came down in the wake of the cigarette advertisingdecision and the economic recessionof the 1970s. An example of the “Catch 22” problem in self-regulation arose in the 1975-1976 “Family Viewing Time” case. Although accounts differ (and those differences became very important), apparentlyFCC Chairman Wiley strongly encouraged the networks and the NAB to institute a policy of limiting violence in programs telecast before 9 P.M. (8 P.M. in the Central and Mountain zones). Then-CBS President Arthur Taylor championed this move, and the industry climbed on the bandwagon-except for the West
9.8
Regulatory Confusion
473
Coast packagecompanies making about 80% of all television programs. Led by producer Norman Lear, they claimed that Wiley had violated the First Amendment by advocating such a provision in the NAB code, that the networks had violated the antitrust laws by agreeing to it, and that, even more important to the packagers, it cut into theirpotential revenues from syndication, as programs deemed violent and played on the networks only after 9 P.M. were similarly limited whenplayed on local stations adhering to the NAB code. The program packagers tookthe issue to court. Late in 1976, a federal district judge in Los Angeles ruled that the “Family Viewing Time” self-regulatory rules were mainly due to excessive behind-the-scenes pressure from the FCC on the networks and theNAB. This important decision was appealed, but it put the whole self-regulatory process in doubt when it said that an industry’s attempt to self-censor all its members was unfair, regardless of purpose. Each licensee had to make its own programming decisions. Making NAB’S job tremendously harder were the newactivist groups concerned with broadcasting. They had gained impetus from FCC commissioner Nicholas Johnson, who, during his 1966-1973 term, had called for reforms and greater public input intobroadcasting decisions. While listening groups had existed since the 1930% few had made an impact on broadcasters or the general public. One of the mostactive of the newbreed of public interest groups in the 1960s was one of the oldest-the Office of Communications of the United Church of Christ. It was the prime mover in the Jackson, Mississippi (WLBT), case (see p. 463), which helped open the regulatory process to public input. It continued to be active in other license cases, in studying therole of minority hiringin broadcasting, and in putting out useful publications on how toget the public involved in radio and television. After several years of effective grassroots action, Action for Children’s Television (ACT) (see p. 459) forced NAB code changes on commercialism and violence and an FCC hearing on the topic, and found funding for research studies. In the mid-1970s, ACT began to create local community groups with the same goals. The National Citizen’s Committee for Broadcasting (NCCB), originally a public broadcasting support group in New York in the late 1960s, under ex-commissioner Johnson moved to Washington in 1974, started a bi-weekly magazine (access), and began to seek active input into broadcast decision making by connecting local groups with public service law firms, sources of financial support and necessary information. Other nonbroadcast-oriented groups-from the American Medical Association to the Parent-Teacher Association-became interested in, commented upon, andeven, in the case of the PTA, threatened a boycott of advertisers’ products because of violence. Smaller groups concentrated on the employment and portrayal of women in television and radio; ethnic programming-trying to remove
474
Chapter 9 Accommodation and Adjustment (1961-1976)
such negative images as The Untouchables (Italian-Americans), the television version of Amos ‘n’ Andy (blacks), the “Frito Bandito” commercials (Mexican-Americans); and blacks in broadcast ownership and programming. This last cause was aided in 1972 with the appointment of black Benjamin Hooksto the FCC (see p. 461). Many of these groupswere very activist, applying for a license up for renewal or petitioning for its denial in order to get the broadcaster’s attention, and then bargaining for whatever the group wanted, such as employment or more programming time. The beleaguered broadcasters thought of this as blackmail, but it was effective-although the FCC warned that thebroadcaster could not delegate his authority to decide what should be aired. Broadcasting became a battleground of lobbyists, advocates, and pressure groupsall somewhat encouraged by the courts, a more open FCC, foundationsupported national organizations, and foundations themselves such as Markle and Ford. Another factor, if only as a yardstick or precept, was the loosely organized groups of listener-supported radio s t a t i o n s t h e Pacifica stations in Berkeley, Los Angeles, New York, and Houston; the “KRAB Nebula” stations: and some very independent independents in Seattle, San Jose, San Francisco, Dallas, St. Louis, Yellow Springs, and elsewhere. Several of these were established or otherwise nurtured by Lorenzo Milam,who put a substantial financial legacy and muchtime into manyof these stations. His philosophy is best expressed in Sex and Broadcasting, a handbookon how to start a communityradio station that poses seldom asked questions about the purposeof broadcasting. Of particular interest were the first feebleattempts toward increased professionalism and self-policing bynewsmen, both broadcast and print. In the late 1960s spurred by overt antagonism toward the press at the Democratic National Convention in Chicago in 1968 and by the Nixon administration’s attacks on the media, several journalism reviews were established. These ranged from the prestigious Columbia Journalism Review to infrequently published magazines in a dozen other cities, and provided a much-needed public washing of dirty linen as well as seminars on journalistic ethics. Journalism had no single professional organization with the prestige and moral authority to establish and enforce a code of ethics in the way that law and medicine policed their memberships, although the Radio Television News Directors Association and the Society of Professional Journalists/Sigma Delta Chi tried. Accordingly, attempts were made, with foundation help, to establish a national “press council,” the National News Council, to adjudicate claims of unfairnessmade against broadcasting andtheprinted press-although many major media refused to play. Some complaining groups, such as Accuracy in Media, and individual complainants were vulnerable to charges ofbias themselves, but most wanted to improve the social responsibility of the media.
9.9 The Impact of Broadcasting
475
9.9 The Impact of Broadcasting(1960-1976)
m
Broadcasting,despite its growing diversity in programming,often brought the nationtogether. Most of these occasions were tragic, such as the assassinations of John F. Kennedy, Martin Luther King, Jr., and Robert F. Kennedy, and the resignation of Richard M. Nixon. But, more positively, in 1969 most of mankind watched Neil Armstrong step onto the moon. 9.9.1 Crises for Media Competingwith Television
Television, it must be remembered, had captured the entertainment function of the mass media almost completely by 1960. Motion pictures hadfelt the pinch in the1950s and, until thenetworks began heavy use of feature films in the early 1960s, the film industry was surviving on a few blockbuster films, a few dependable stars, and by making television programs. Most television series were shot on film in Hollywood as well as many of the “madefor television” feature films (seep. 437), which were emerging in the late 1960s. Although there was a new generation of moviegoers, and films for them, muchof Hollywood’s income in the early 1970s came from prime time network showings of recent movies. Still, unemploymentin the creative trade unions in Hollywood was so high that theNixon administration condemned the increasing use of reruns on television, which limited the need for original program material. In spite of this threat to the networks, Hollywood remained television-dominated, in both ownership and output. The independent producers-often successful directors or stars who could convince the banks that they were a good risk for a production loan-continued to turn out more important films than the major studios, although the surviving majors made enough notable blockbusters to cover the costs of less successful films. Magazines feltthe full brunt of television in the 1960s. The once popular Colliers died in 1957. By the mid-l960s, the Saturday Evening Post was in deep economic and editorial trouble, and after publishing bi-weekly for several years, the Curtis Publishing Company stopped publishing it in 1969. Many people said that television had stolen the audience for the mixture of fiction and fact that had made the Post a populargiant for over four decades. Then the twomajor picture magazines, which had started within a year of each other in the mid-1930s, ceased publication within a year of each other three decades later. Look went first, followed in 1971 by Life. The circulation was there nearly till the end, butadvertisers had lost confidence in national general circulation magazines and thought that television would do them more good at less cost. Some national magazines tried to appeal more to advertisers by not renewing subscribers in poorer rural
476
Chapter 9 AccommodationandAdjustment
(1961-1976)
counties, much as CBS had killed its rural-oriented programs in 1971 (see pp. 437-438), but to no avail. Magazines became specialized, with the Reader’s Digest being the only general circulation non-newsweekly magazine to survive into the mid-1970s. TV Guide, with its many regional editions and 1977 weekly circulation of approximately 20 million, was the nation’s most popularmagazine. Newspapers faced increasing economic problems, only partly caused by radio and television taking away their late-breaking news role-the “extra” edition had virtually disappeared by the end of the 1950s-and television taking much of the entertainment function. In city after city, dailies died-New York‘s seven metropolitan dailies of 1961 had shrunkto three by 1 9 6 8 ” g e n e d y to the benefit of advertisers who with oneor two papers could cover the audience thatonce had been split among many. The soaring demands by labor unions, justifiably worried over technological unemployment, and the escalating costs of newsprint discouraged many publishers and investors. Business-oriented publishers raised their papers’ daily price to readers and advertisers and then, as circulation and net profits dropped, killed them off or merged them. Some new suburban dailies and weeklies bucked this trend. Increasing media competition and corollary costs contributed to a trend to media conglomerates in the1961-1976 period, particularly in the book publishing industry, which hadbeen generally removed from group ownership in thepast. By the m i d - l ~ o sseveral , media empires hadmajor holdings in print and broadcast media andoften in film as well. It was argued that it took economies of scale to meet competition from other huge media empires, demands of large advertising agencies, inflation, and the costs of labor. The cost was loss of diversity in content, fewer outlets for advertising of new products or services unable to meet the price, and fewer jobs. 9.9.2 Television around the World
nn!Rm
Two major developments were the coming of color and the use of com-
munications satellites for news transmissions (see pp. 411-412, 444, 455). By the 1970s, most of the developed nations of the world had color television. Unfortunately, three systems were in competition for adoption: the American NTSC, the German PAL, and France’s SECAM. The Western Hemisphere and Japan adopted the U.S. standard; Great Britain and most of Western Europe adopted theGerman system; and France, the USSR, and much of Eastern Europe, partly for political reasons, took the French system. Great Britain began color transmissions late in 1967. Canada had begun the year before, although an estimated 50,000 Canadian color sets had been tuned to colorcasts from south of the border before this. Japan and other Far Eastern countries quickly became the major sources for the
9.9 The Impact of Broadcasting
477
world’s television receivers. By the 1970s, more television sets were in use outside theUnited States than init. Transistors and thenintegrated circuits made radios smaller and more rugged, and their low cost and lack of need for power lines brought domestic broadcasting to many underdeveloped countriesfor the first time. Radio’s low cost and ready access to rural areas made it a widespread ingredient in successful developmental communication in Africa, Latin America, and Asia. Developing nations that introduced television frequently supported it by advertising, and typically placed a single station in the capital city more for prestige and the pleasure of the ruling elite than for service to the public. American television programs and radio shows were popular, but toward the endof this period some countries established regulations limiting the showing of foreign import programs in order to protecttheirownartists,industry, andculturalindependence. Even Canada passed strong laws to limit U.S. television advertising, programs, and other media influences that were considered harmful to the Canadian culture and media industry. Because of the language difference, Mexico was not as directly affected as Anglophone parts of Canada by U.S. stations. Indeed, Mexico had by the late 1960s become a major program source for the rest of Latin America and even for Spanish-language television stations in the United States. 9.9.3 Period Overview
As the title of this chapter suggests, this 15-year period saw more evolution than revolution for the media. FM radio and cable television grew to importance, while commercial television and AM radio grew more slowly. Public (formerly educational) broadcasting now was national policy and achieved national impact for the first time. Discussion continued on UHF and pay-TV. Major issues in the 1960s and 1970s included financing of public broadcasting, the amount of advertising on both radio and television, the content of ads specifically aimed at children, violentprogram content, bias or suspected bias in broadcast journalism, responsibility for regulating broadcasting, political influence in the regulatory process, the increasing potential of cable television, all the issues surrounding the Fairness Doctrine, economic-and political and social class-concentration of ownership inbroadcasting and other media, and a gnawing concern that broadcasting would serve the public’s needs better if the public would express some interest. Few of these issues were clearly resolved by 1976, as the number of “players” in the broadcast issues arenaand the economic stakes kept increasing. The era began with an obvious major change atthe FCC, as it wentfrom years of complacency and even acquiescence to a period of strong regulatory
478
Chapter 9 AccommodationandAdjustment
(1961-1976)
activity. Relatively few issues were decided, however; diversity and confusion typically won out over clear-cut decisions and trends.
Selected Further Reading (Alphabetical within topics. ForfilZ citations, see Appendix D.) Contemporary views of broadcsting in this era are found in Cole (1970), Harris (1978), Head (1972, 1976), Mayer (1972), Skornia & Kitson (1968), Summers & Summers (1966, 1978), and White & Averson (1968). Early development of cable and other new technologies is found in Bagdikian (1971), Brown (1970), Kamen (1973), Lardner (1987), LeDuc (1973), Maddox (1972),and Smith(1972). Economic issuesare the focus of Noll, Peck & McGowan (1973), and Owen, Beebe and Manning (1974). Diamant (1971), Hall (1984), and Price (1978) review top television commercials. The dramatic changes in educational/public broadcasting are descibed in Blakely (1979), the Carnegie Commission report (19671, CPB annual reports (1970-1976), Day (1995), Engelman (1996), Gibson (1977)’ Koenig & Hill (1967), Macy (1974), Stone (1985), and Witherspoon & Kovitz (2000). Schramm et al. (1963) was the first national educational television audience study. “Underground” radio is the topic of Keith (1997), while Spigel & Curtin assess sixties television (1997). For reference books on television programs, see chapter seven. Contemporary views of this era include Brown (1971), Cantor (1972), The Eighth Art (1962),Miller & Rhodes (1964),and the annualSeptember “preview” issues of TV Guide. The made-for-television movie is chronicled in Marrill (1984), while the television output of two studios is found in Perry (1983, on Universal) and Woolery et al. (1985, on Warner Brothers). Children’s television is covered in Fischer (1983) and Wollery (1983, 1985). Johnson (1971) and Sugar (1978) cover televised sports. Television journalism is covered in Barrett’s reviews (1969-1982, originally annual then every two years), Bluem (1965) and Curtin (1995) on the documentary, Buzenberg & Buzenberg on the Dick Salent years at CBS (1999), Donovan & Scherer (1991),Einstein on documentary series and special reports (1987),Dunham (1997), Epstein (1973), Frank on NBC news (1991), Gates on CBS news (1978), Hammond on documentaries (1981),and Small (1970). Television’s place in theVietnam War is assessed in Braestrup (1977),Hallin (1986),and MacDonald (1985). Politics and television during this period (and subsequent years) were featured in Chester (1969), Gilbert (1972), Lang & Lang (1983) and Lashner (1984)”both focused on Watergate, MacNeil (1968), McGinniss (1969), Mickelson (1989), Minow et al. (1973), Morreale (1993), Reinsch (1991), and West (1993). Television audience studies includeBeville (1988),Bower (1973),Cater & Strickland (1975),Glick & Levy (1962),Luke (1991),the National Institute
Selected Further Reading
479
of Mental Health (1982), Rowland (1983), Steiner (1963), and the Surgeon General's committee (1972). Regulatory issues are featured in Cole & Oettinger (1978), Emery (1971), Friendly on the Red Lion case (1976), Johnson (1970), Krasnow & Longley (1973), Levin (1971), and Jung (1996), Rowan (1984), and Simmons (1978)"all three on the Fairness Doctrine. Quinlan (1974) describes the WHDH decision. Compaine and Gomery (2000), Baer (1974), and Rucker (1968) all focus on questions of media ownership. World broadcasting is described in Dizard (1966), Emery (1969), Green (1972),,Head(1974), Paulu (1967, 1974), Segrave on U.S. television abroad (1998),,Smith (1973), and Unesco (1964,1975).The changing broadcasting scene in Great Britain is the subject ofBBC Handbooks (through 1987), Briggs (1986,1995),Harris on the"pirate" radio stations (1970), IBA Handbooks (annual), and Sendall (1982, 1983). Peers (1969, 1979) discusses Canadian radio and television.
“The need for a fresh approachto broadcasting, now spurred by competitive challenges from cable and other video providers, is long overdue. This new approach concludes that broadcastersbest serve the publicby responding to market forces rather than governmental directives. It restores the broadcasting business to the unregulated status of American enterprise generally.’” FCC Chairman MarkFowler, writing on his market1982 place approach to broadcast regulationin the TEXAS REVIEW, L A M ?
A 1964 model “portable” video camera that led the way to ENG in the 1970s and beyond.Photofest.
...
“No one doubted five years ago that television would be altered quite drastically in this decade. Cable had already exceeded 30 percent penetration and HBO , , was being spoken of as the likely fourth network. , , , Although no one can deny the impact of these technologies, the sweeping predictions about theirinevitable progress were, as it turns out, overly optimistic. Few of the early promises of the new media have been realized.’” Television criticLes Brown,summing up the mid-1980s
.
...
in CHAhTWLS FIELD GUIDE 1987
ABC’s 1978 political convention control center. Photofest.
481
Chapter Outline 10.1 NewTechnologies 485 10.1.1 Delivery: Getting Here from There 486 10.1.2 New Technologies at Home 488 10.1.2.1 Home Audio Recording 489 10.1.2.2 Home Video Recording 490 10.1.2.3 VideoTextDevices 493 10.1.2.4 Closed-Captioning 495 10.1.2.5 High-Definition Television 496 10.1.3 Technology Overview 498 10.2 Stations and Systems 499 10.2.1 FM Pulls Ahead 501 10.22 Is More Television Better? 502 10.2.3 Cable-The New Basic Distributor 505 10.3 Networks: A New Age 507 10.3.1 New Entrants 507 10.3.2 CompetitivePressures 509 10.3.3 Network Upheaval 510 10.3.4 Coming of Cable Networks 514 10.4 Public Broadcasting (Still) Seeks Its Place 517 10.4.1 Politics As Usual 517 10.4.2 The Programming Dilemma 10.4.3 Financing: A Gordian Knot 10.5 Advertising: Money and Motives 10.5.1 Broadcast Advertising:
518 521 523
A Continuing Relationship 523 10.5.2 New Media, Limited Appeal 524 10.6 Programming 526 10.6.1 Radio's Survival 526 10.6.2 Rising Risks in Television Programming 527
482
10.6.3 Television Entertainment:
Imitation and Evolution 529 10.6.3.1 NetworkJockeying 529 10.6.3.2 New Dramatic Techniques 531 10.6.3.3 The Unusual. 532 10.6.3.4 and the More Usual 535 10.6.3.5 Among the Missing 538 10.6.4 More News at All Times 538 10.6.4.1 Sports 545 10.6.5 Media/Politics; Politics/ Media 546
..
.. .
10.7 Audience Changes and Constants 550 10.7.1 New Methods, New Media 552 10.7.2 Kidvid (Phase Four) 556 10.7.3 Other AudienceEffects and Criticism 558 10.8 Rethinking Regulation 559 10.8.1 Congress Mes to Rewrite the 1934 Act 562 10.8.2 BroadcastDeregulation 566 10.8.3 TechnicalStandards 569 10.8.4 Entry and Equity 571 10.8.5 Regulating Competition 575 10.8.6 RegulatingRights 577 10.8.7 Regulation Overview: Abandoning the l h s t 581 10.9 Impact 582 10.9.1 Competing for the Consumer 582
10.9.2 Changing Electronic Media
Worldwide 585 10.9.3 PeriodOverview 587 ' SelectedFurther Reading
588
few weeks after Jimmy Carter took office in 1977 as the 39th President of the United States, he appeared in aninformal televised “fireside chat” muchlike those of President Roosevelt on radiofour decades earlier, but wearing a sweater instead of a business suit.Carter tried to appear new and folksy at the same time-promising a continuation of past Democratic philosophy with few changes in government operation, and walking down Pennsylvania Avenue to the White House after he was sworn in, In contrast, 12 years later, as Ronald Reagan ended his twoterms and George Bush, Sr., took office, the relationshipsof government and business (including the industry of broadcasting) that the United States had known for most of the twentieth century hadundergone drastic changes as a result of rapid technological innovation and adoptionof radical deregulation for ideological reasons. After 1980, broadcasting’s institutions were challenged more than ever before. Technological innovations and competitive pressures that began in an evolving-and soon the late 1970s forced broadcasters to adjust to mostly deregulated-marketplace of communication. For the first time, nonbroadcast electronic media began to dictate the direction of traditional over-the-air broadcasting. The dramatic changes that became increasingly evident in the1980s had been gestating for years, as noted in chapter 9. As with most revolutions, however, these changes seemed to come-or we became aware of them-suddenly and often in combination, and they began to alter drastically the role of “broadcasting.” Perhaps these shifts were exacerbated by changes in thecast of characters. Manufacturing moved overseas. The young G.1.s who had returned from World War I1 to go into broadcasting were now contemplating retirement, and thefirst generation of broadcasters from the 1920s and 1930shad long since stepped down. Broadcasting was becoming a commodity, something to be bought or sold rather than a calling or a profession-and this attitude, reflected in theenrollment growth of business and law schools, fit right in witha growing trend toward economic conservatism in Washington. The era covered in this chapter can be divided into two periods by the year 1980. The 1977-1980 period (theCarter years) marks a kind of calm before the storm. There was the excitement and uncertainty of widespread predictions about the possible demise of broadcasting as a result of the proposed introduction of as yet experimental newservices such asbroadband 483
484
Chapter 10 Challenge and Competition (1977-1988)
cable with unlimited capacity (the “wired city” concept) and direct broadcast satellites. Still, even though there were some initial moves toward deregulation, broadcasting largely continued operating as it had before, ignoring promised but not yet practical new competitors. Indeed, some would argue that broadcasting stood at the peak of its performance on the eve of its 60th anniversary in 1980. Certainly, that year marked a gap in, if not an end to, the orderly growth that had started in the 1920s.Before 1980,much of television was still run by the station and network leaders who had helped to develop it and who stillbelieved broadcasting had a concern with, and continuingresponsibility to serve in, the public interest. The FCC continued to play a strong role in regulating broadcasting, despite increasing deregulation when Charles Ferris became chairman in early 1977.Only after 1980 did the long-promised new technologies begin to make a real difference. The increasing penetration of cable and videocassette recorders (VCRs) made these technologies a part of everyday life fortheir audiences, with both in more than half the country’s households by 1987 (see pp. 551-552). At the same time, under Reaganappointed commissioners, the FCC began to back-and then run-away from decades of public interest regulation, relying on thepolitically popular (in aconservative administration) but unproven theory that marketplace competitive pressures would regulate broadcasting and other electronic media for the public good. The changes that technology and deregulation brought about require a broader definition of such traditional terms as “broadcasting,” “network,” and “local station.” “Broadcasting” has become a generic reference to any electronic means of delivering entertainment and information-news content to consumers, while theterm “network” no longer is restricted to a system in which local affiliates have to present the same content at the same time. In addition, delivery of programs to affiliates now is almost entirely or miby space communications satellite rather than terrestrial wires crowave relays. And “local station,’’by the1980s,might include cable systems and other distribution channels as well as individual stations. To members of the public, of course, the way a program reaches them is of little importance. As this chapter will show, the expansion of delivery options and new economic pressures had substantial impact on the industry. However, programs-the content of broadcasting-were little changed (with rare exceptions), although they were subject to ever-tighter budget limitations. Alterations in broadcasting were not unique. They were occurring against a background of change elsewhere. For example, the once tightly regulated airline industry was thrown on its own competitive resources after 1978. This led to a mix of lower prices but often far poorer service from a lot of new, merged, and often short-lived airline companies, most trying to skim the cream of large market service, ignoring or overcharging many intervening cities and changing prices so rapidly thattravel agencies’ computers
10.1 New Technologies
485
often had difficulty keeping track. The potential for deregulation of broadcasting and telecommunications services often was compared to the hypothetical and presumed benefits df a more competitive airline market, but the public was not as aware of all of the ramifications of this change. The biggest telecommunications industry story started when theJustice Department moved against AT&Twith an antitrust suitin 1974,a case that finally went to trial in 1981.Early in 1982,AT&T and the Justice Department settled out of court, subjecting AT&T and its operating companies to the continuing supervisionof federal judge Harold Greene. The Bell System was broken up, with AT&T divested of its local, regulated operating companies and freed-in part-to engage in new, often unregulated ventures in the information and computer fields. The operating companies were reorganized at the beginning of 1984 into seven independently ownedregional holding firms. The most radical changes insofar as consumers were concerned were in how they nowobtained telephones (generally by purchase rather than lease), chose a long-distance carrier (where there had been little choice before 1980,now AT&T competed with lower-cost firms like MC1 and Sprint), and paid theirincreasingly complicated phone bills. This restructuring of what had been one of the largest institutions on earth, and a paragon of technological efficiency, was thought by many to be another indicator of fundamental changes in the American economic system, which was becoming service oriented rather than manufacturing oriented, harder to enter against entrenched firms, and subject to many formal and informal controls because of multinationalism. Broadcasters and cable operators both kept a wary eye on this now partially unshackled colossus that might try to move back into thefield it had left in 1926 (see pp. 74-76).
10.1 New Technologies
F”m
The pace of technological change in most fields accelerated after World War 11. Cycles of innovation shortenedbecause of the competitive pressure to market new ideas before someone else does. Sometimes shoddy “novelty” hasbeen substituted for progress, leading to equipment designed to be thrown away by the consumer and replaced rather than repaired; sometimes bold new products have been embraced by the public. Yet the same competitive pressure can harm technological progress in the long run. In 1987,for example, under pressure to increase its short-term profits, CBS closed its research labs in Connecticut, where Peter Goldmark had developed CBS’s early color television and LP record projects in the1940s.RCA’s David Sarnoff Research Center in Princeton, deemed unnecessary by its new owner, General Electric, was given to another research company for a tax write-off in thesame year. Laterstill, the mission of Bell Telephone Laboratories became almost exclusively devoted to applied research, to the near-exclusion of basic research of the sort that had ledto the transistor and
486
Chapter 10 Challenge and Competition (1977-1988)
Information Theory. Changes in federal tax laws, often good indicators of real, as contrasted to rhetorical, public policy changes, removed much of the financial incentive for investing in research and development. While some inventions and innovations still came out of American laboratories, telecommunications manufacturing increasingly moved abroad, and the United States became a more service-oriented economy. Broadcasting’s once unique role was altered by the increasing availability of competing content delivery technologies. But, as will become evident, this technological change has improved the production and distribution processes rather than enhanced program content quality and variety. The dramatic changes of the 198Os, while based on years of earlier technical innovation, also were due to regulatory reconsideration. The increasing availability of new technologies contributed to arguments both for and against deregulation, as discussed on pp.566-569.
10.1.1
Delivery: Getting Herefi-omThere
Put simply, many of the so-called new technologies are largely duplicate means of delivering similar programming from producer to consumer rather than a whole new system of communication, as was radio broadcasting in the 1920s. Until the early 1980s, with the exception of the relatively few homes wired for cable(see Appendix C, Tables 9-A and 9-B), radio and television retained their monopoly on electronic delivery of news and entertainment to households. But after 1980, other means of delivery, especially cable, VCRs, and (indirectly) satellites, became increasingly important. Developed in the 1960s (see pp. 411-412), the geostationary- (geosynchronous-) orbit space communications satellite finally ended AT&T’s lucrative monopoly of wire and, later, microwave broadcast network interconnection, which dated back to 1926 (see pp. 75, 77). In 1978, the Public Broadcasting Service began distributing programming to its 280 television affiliates by means of transponders (satellite devices that receive signals beamed up to them from earth and transmit back to earth on a different frequency over a defined area known as a “footprint”) on the Westar I domestic communications satellite rather than usingAT&T’sland lines. The new system allowed better-quality transmission, more flexibility in sending programs between or within time zones or regions, and a greater choice of programs for stations-which could nowchoose among four channels of material instead of one-and it was cheaper. By 1980, with prices of television receive-only antennas (TVROs or “dishes”) dropping, National Public Radio ended its terrestrial interconnection and moved to satellite. It is interesting that the last commercial television networks to switch to satellites were those that had been around thelongest: NBC in 1985, followed soon by ABC and CBS. In addition, the1980s saw therise of many satellitedelivered cable networks (see pp. 514-517, Appendix C, Table 9-C).
10.1 New Technologies
487
Use of similar but more powerful satellites allowing direct service to the home was first proposed by Arthur C. Clarke in 1945, but given solid form in 1980by the Communications Satellite Corporation (COMSAT). COMSAT’S specially formed subsidiary, Satellite Television Corporation (STC), applied in December 1980 to the FCC for permission to design and launchthe country’s first direct broadcast satellite (DBS) service designed to reach rural areas and inner cities, both inadequately served by cable and over-theair stations, (Of course, the satellite’s coverage footprint would also cover wealthier areas.) STC’s plan for DBS was but thefirst of many filed with the FCC in 1980-1982. The potential of DBS seemed bright, much to the consternation of traditional broadcasters, who feared instant obsolescence. They neednot have worried. Though theFCC proceeded with spectrumallocations for possible DBS service, none of the many applicants survived, and only STC actually built satellites. The costs (estimated at $700 million through the first year of STC’s operation) were too high for the limited potential audience. Further, none of the early DBS applicants resolved the central problem of programming-what to provide that was different from or better than what most consumers already had from over-the-air broadcasting, cable, and videocassettes. One DBS operator did, briefly, show what couldbe done. United Satellite Communications, Inc. (USCI),with substantial financial backing from the Prudential Insurance Company, provided service to portions of the Midwest and Northeast in late 1984 using a Canadian ANIK satellite transponder. Expecting to serve several tens of thousands of homes, but actually reaching fewer than 11,000, USCI closed up early in 1985 owing some $47.6 million. By the late 1980s, a few companies, notably Hubbard Broadcasting of Minneapolis, were still expressing interest in a possible DBS service in the United States. But despite ever more efficient satellite technology, the daunting costs of design and launch and the inability to create programming sufficiently different from that already available made DBS in the United States seem unlikely for some years to come-although European and Japanese systems (oftenproposing high-definition televisionsee pp. 496-498) seemed morelikely to succeed, Abootleg version of DBS was to be found in nearly a million American homes-often in localities with poor broadcast or cable service-that equipped themselves at high cost to pick upmaterial from the low-powered communications satellites used by broadcast and cable networks. However, by the Fall of 1987, the commercial networks, under pressure from local affiliates, and most cable networks had “scrambled” their signals, in some cases willing (for a monthly fee approximating that of cable) to supplydecoders to those with TVRO dishes at home. While broadcasting looked to the skies for improved delivery systems, one terrestrial technology brought things back to earth. Developed in the 1970% optical fiber or glass cables modulated by lasers began to spread across the countryin the 1980s. Optical fiber has high signal reliability and
488
Chapter 10 Challenge and Competition (1977-1988)
a huge bandwidth capacity, thus lowering costs of delivery. Telephone companies first used it for high-density trunk circuits, and thefirst transatlantic fiber cable for voice and video communication went into service in mid-1988. Domestic communications satellite operators and telephone or other telecommunications systems saw optical fiber links as competition for many kindsof point-to-point communication, though for broadcast and cable services, satellite delivery was essential. Some wondered that when the costs of wiring homes with fiber optics declines, it may replace some present broadcast and cable services using the electromagnetic spectrum, raising the political and economic question of why we need to pay for two broadband (cable television and telephone-data) connections to our homes. Other delivery technologies played minor roles in the electronic media delivery marketplace. Widely discussed, but having limited audience impact, were low-power television stations (LPTV) and “wireless cable” MMDS microwave broadcasting systems (see pp. 503-504). But in both cases, their programming was largely conventional broadcast fare, underlining our earlier point that the newdelivery technologies were largely duplicate means of achieving the same end: getting news and entertainment from one producer to many homes-the essence of broadcasting. 10.1.2 NewTechnologies at Home
RmmmlJ
After 1980, an increasingly intense battle was fought for the loyalty and wallets of consumers seeking the latest in electronic communication gadgets. By the late 1980s, the most expensive (and potentially useful) of these gadgets was the homeor personal computer (PC), which could acquire information, often in an interactive mode, through telephone lines using modems (“modulator-demodulator”).PC games took up some leisure time people might otherwise have spent watching television. A second common gadget might be a cordless (radio) telephone or a telephone answering machine, both technically more reliable and useful to more people than the dwindling CB (Citizens Band) radio craze of a few years before, and a great deal cheaper than the cellular car phones installed by many business executives in the 1980s. While electronic devices were filling the average home, the electronic innovations we are most interested in can be divided into four categories: audio recording, video recording, video text services, and improved video quality. Certainly the dominant trendin 1980s consumer electronics was to ever-better means of home recording and playback, for both audio and video. The recording industry’s “battle of the speeds” in the late 1940s (see pp. 272-273) was but a precursor to a never-ending stream of rapidly introduced innovations in the 1980s, each seeking at least a niche of consumer acceptance. The struggle was complicated by the FCC’s abandonment
10.1 New Technologies
m
Changing ’hammission Modes
489
Broadcast, cable and auxiliary services used
an increasing varietyof delivery systems in addition to over-the-air transmission by the
1980s.The major ones are compared here. ~
Medium Twisted-wire pair
Coaxial cable (“coax”) Insulated hollow
Description Two insulated copper Usually voice grade; wires
~
~~
Capacity/use typically one audio circuit; used for radio networks
TV networks (until 1985) copper cylinder with and cable systems; than twisted-wire signalwireconductortypicallyonevideo channel, but maycarry more than two dozen
TV or radio Optical fiber (“fiber optics”) Glass fiber strands Multiple carrying light beams channels or cable relay; expensive than protective within a very high capacity coax or cable
cost Least expensive
More expensbe
Usually much more wire
~~~
Microwave relay
TV or radio Ultra-high frequency Multiple point-to-point radio signals, linking cable optical fiber carrier and MMDS, systems, ENG relay; capacity similar to coax
Satellite relay Radio transponders on
TV channel multiple or Most expensbe, satellite receive from audio signals per uplinks and transmit to transponder (usually24 downlinks transponders per satellite); alsoSNG
Less costly than
but highly efficient for national or regional coverage ’
of its traditionalrole of selecting technical standardsfor broadcast services, leaving the success or failure of several technologies to an ill-defined marketplace (see pp. 569-571).
-
10.1.2.1 HomeAudio Recording
Although the audiocassette continued to be improved to the point where it made major inroads into sales of L 2 records (and 45-rpm records and 8-track units had joined 78-rpm records as historical novelties), a major improvement in sound recording wasa digital recording modulated by a laser, called the “compact disc” or CD, which had many advantages over traditional analog music recording. The CD, named for its just-under-5-inch size,
490
Chapter 10 Challenge and Competition (1977-1988)
was firstintroduced in 1983, offering finesound reproduction at an initially stiff $800 for a player and at least $20 per disc. The discs were said to be indestructible and could be played endlessly without wear and resulting sound deterioration (though by the late1980s there wasconcern about how long C D s would really last due to shortcuts taken by some CD makers). As with traditional record players, the CD player could not be used torecord. But its superiorityin quality of sound andabsence of hiss or noise over analog-based disc, reel-to-reel or cassette tape made it a hitwith audiophiles, Rising demand ledto increased production, and costs dropped so that players could be had for $150 or so by 1987, and some CD discs were list priced under $12 and discounted below that. By 1986, a CD boom had developed, and what had been a niche market took on the trappings of a widespread consumer product, with home, portable, and automobile versions, stimulated by radio stations’ increasing use of CDs on theair. By 1987, thousands of titles were available on CD (about half popular and half classical), cassettes were being relegated to a small section in music stores, and thetraditional LP looked as if it also might be on the way out. 10.1.2.2 Home Video Recording
Leading the parade of home video products for most of the decade was the videocassette recorder (VCR), heralded as a true mass medium.Introduced in 1965 (see pp. 410-411), the VCR made hardly a dentin consumer interest until the early 1980s because of initially high average unit prices ($785 in 1978). Heating up competition and thus contributing to lower prices (down to $388 by 1986) was the fact that the Japaneseproducers of VCRs backed two conflicting standards-Sony’s pioneering Beta format and Matsushita’s competing VHS, introduced in 1977, which adecade later had won the war, at least in the United States. The differences were minor on the screen, but the cassettes were of different sizes and thus were incompatible. The public was attracted to buy as first VHS and then Beta increased the amount of recording time from an hour toas much as eight hours per ever-cheaper cassette. Increasingly complicated machines were capable of being programmed to record on a timer, without the need for someone present to push the buttons-although many never learned how, and “the blinking 12:OO” became a symbol of technological inadequacy. VCRs with video cameras in the samebox (known ascamcorders) replaced most of the homemovie business. As shown in Appendix C, Table 7-B, the penetration of VCRs rose sharply in the mid-l980s, reaching half of all television homes in 1987, the first broadcast-related service to achieve such a plateau since color television 15 years before. For the viewer, a VCR brought a large degreeof viewing control into the home and away fromthe broadcaster or cable system owner. Withsuch machines, viewers could practice time-shifting, recording of programs to
10.1 New Technologies
491
watch when convenient rather than when scheduledby the network or station (see pp. 555-556). Further, home libraries of video material could be constructed. Now everyone could become his or her own television programmer, a fact that made life much more difficult for the ratings services (see pp. 553-556). This ability to duplicate freely broadcast and cablecast programming, especially motion pictures, led to adverse film industry reaction and eventually to unsuccessful legal actions to control VCR use (see p. 578).It led aswell to businesses aimed specifically at VCR ownersrental (and sometimes sale) of cassette recordings of feature films and video programming was highly competitive but largely successful, due to low overhead and ability to meet a public desire. On the other hand, anattempt to cash in on thegrowing popularity of VCRs by ABC-TV’s “TeleFirst” service from Chicago failed in just six months in 1984.ABC offered a subscription service of films telecast in early morning hours to preset VCRs. It signed up only 5,000subscribers and lost some $15 million. The complications of setting VCRs for later recording, and theready-and cheaper-local availability of rental tapes, doomed the venture. (Had it worked, many likely would have watched theprevious night’s recorded movie rather than prime time television, a factor ABC may not have thought through!) The success of the half-inch VHS format in this country, and the desire of supporters of the Beta format to regain its market share, ledto the development of new formats, such as Beta I1 and Super-VHS. While of higher pictorial quality, some of these machines are unable to play the tapes recorded on their less expensive relatives, and, of course, vice versa. While a plethora of different standards often limited playback to the homeVCR for which thecamcorder was bought, all of these units capture images in color and with sound. Some camcorders-either half-inch (VHS or Beta) or 8 mm-evolved to a quality level that has given them a role in nontheatrical or news production. The applicationof the videodisc did not initially fare as well. First marketed by Magnavox in 1978 to sell copies of popular theatrical films to consumers, and given a big push by RCA after 1981,the videodisc was sold as a cheaper but playback-only alternative to the VCR. The videodisc industry also was plagued by several incompatible technologies, some based on lasers, others (like RCA’s) based on mechanical (stylus-in-groove) techniques. Sharply lower VCR prices in the early 1980s,plus the videodisc’s inability to record off the air, doomed the various videodisc systems, though many felt the disc’s picture tended to be better than theVCRs, and it hadsignificant uses in education and industry, RCA finally gave up onits product in 1984,after a loss of more than $500 million. In the late 1980s,interest in the videodisc revived, thanks to the parallel, and far more successful, development of the audio compact disc (CD). Already available by 1987 was what seemed the best of all possible record worlds: machines that would play-but not record-audio CDs and laser videodiscs interchangeably. Paced by sales of music video discs, the
492
Chapter 10 Challenge and Competition (1977-1988)
The Consumer Digital Era h the late 1980s,digital technology was increasingly common in radio and recordings and was beginning to make headway in television. By 1989,compact discs were in about 10% of American homes, while the digital audiotape recorder (DAT)was expected tobe the next potential blockbuster mass acceptance product on the market. Videodiscsmade an abortive marketpush inthe early1980s and, although it was thought thatthey would make a comeback inlaser form, it was the DVD that tookhold inthe late1990s.All relied on digital rather than analog recordingand sound generation.
m
How a Laser CD or Videodisc Works Informationisetched into microscopic "pits" arranged in spiral tracks on the surface of the disc. Rather than data on being contained in the visible undulating grooves of the analog recording system used LPs, in vinyl a CD or laser videodisc are stored digitally as a sequenceof 1S and Os in the "pits" (indentations) and "lands" of the disc surface.A focused laser beam "reads" the information in the reflected (places that weren't pits) is transferredto a prism, then directed into a photo detector for conversion into pits and lands. The signal sound signals in CDs and video signals in videodiscs. A transparent plastic coating protects the information on the disc from physical damage and also carries the record label. The laser beam scans for information without physically wearing down the surface-thus laser-read discs, video or audio, theoretically should never wear out.(CD-ROMs for computers work in a closely related fashion.)
Protective
Cross section of CD track
Land "Pit"
Laser movement
I. l .l
videodisc market showed signs of new life. Further, development of the CDbased read-only-memory (CD-ROM) computer memory technology paved the way for machines able to play any kind of CD disc: audio, video, or computer memory. Publishing ventures looked forward to placing enormous amounts of data-such as the complete Bible or U.S.Census-on a CD-ROM disk, with any section, page, or even word retrievable almost instantly with the proper computer commands. (The major costis in preparing the content for recording, since existing automatic scanning devices for converting print to a computer storage medium are not perfect.) Industrial and training uses
10.1 New Technologies
493
How Digital Audiotape Works A digital audiotape(DAT) machine uses a cassette of audiotape that is smaller than that used in an analog machine, but otherwise itis similar in operation. The tape records data helical, in or slanted, tracks, using two recordingheads. Data on track one are oriented differently from those on track two, allowing of tracks without dangerof interference. As with CDs (above), DAT machines a tight squeezing together for playback. UnlikeCDs, "read" digitalsignals, 1s and Os, which are then converted into analog sound DAT machines can be usedto record and play back material.
-
DAT machine
Recording drum
of CDs, videodiscs, and CD-ROM were paving the way, said many observers, for major consumer product breakthroughs in the 1990s.
-
10.1.2.3 Video Text Delvices
Despite much promotional hoopla and investment by several large media firms, two closely related new technologies, teletext and videotex, seemed unable to find a consumer market in America. Introduced first in Britain in
494
Chapter 10 Challenge and Competition (1977-1988)
the 1970s, then in Canada and France (using, as youmight by now expect, differing technical standards), both of these are means to allow the viewer to select “pages” of printed information rather than the television picture being transmitted at the sametime. Teletext is a meansof sending text and diagrams to a properly equipped television screen by use of one of the “vertical blanking interval” lines that together form the dark band dividing pictures horizontally on thetelevision screen. The communication is one-way, with the transmitter sending one screen or “page” of information after another and able to store perhaps 200 at a time. Videotex looks the same on the screen but reaches the homeor office by cable and has an interactive ability (you can select any of possibly thousands of specific pages or screens by punching up numbers on a push-button Keeping u p with Technology With rapid improvements in studio and transmission technology and increased interest by foreign manufacturers in sales to American business, the annual equipment exhibition of the National Association of Broadcasters (NAB), thebiggest of its kind in the United States (and, say, some in the world), has taken on increased importance. Until the early 1970s,this annual exhibition was held in Chicago or Washington, D.C., where hotel exhibition halls then were large enough to hold all the equipment demonstrations. As the industrygrew, the NAB was forced to move to Las Vegas (where these photos were taken, at the 1988 exhibition) or Dallas, which have exhibition halls large enough to hold the hundreds of exhibitors, who occupy more space each year. By the end of the 199Os,it literally would be a five-mile walk to stroll once t h i s four-day exhibit down each aisle. Electronic media engineers and managers count on and related convention technical sessions to get a sense of larger industry trends and to order new equipment. While the NAB’S is by far the largest (more than 100,000 attendees!), other industry groups also have technical exhibitions.
Photos courtesy of the National Associationof Broadcasters.
10.1 New Technologies
495
telephone or similar control). Both techniques could provide useful datanews headlines, airline schedules,weather reports, goings-on in town-to the subscriber. The French Telecom “Minitel” system, for example, supplied free terminals to homes requesting them that were intended to do away with printed telephone directories-and gain an audience base for other service providers. It remained in service through the 1990s. The 1980s saw considerable policy debate in the United States about such systems and massive loss of money on them. Videotex attracted the most attentionbecause it offered the ability to make thousandsof pages of information, advertising, or entertainment available on a subscription basis at the pushof a button. TheKnight-Ridder newspaper chain introducedits “Viewtron” videotex experiment in Coral Gables, Florida, in October 1983 and spentnearly $30 million in programming and promoting the system in its first 14 months. In Southern California, the Times MirrorCompany tried a similar system. By March 1986, both projects were wound up,with losses of $50-$60 million and $20 million, respectively. The public seemedconfused by what was offered, disliked having to buy or rent decoding devices to receive the videotex signals, and was not very interested in the limited information made available. It seemed clear that videotex was best suited for business rather than home use. Newspapers were in the business of supplying content to consumers, so it is no wonder that they were early experimenters, just as they were when facsimile was proposed as a broadcast medium in the 1940s. By the late 1980% the formerly AT&T owned regional Bell operating companies (RBOCs) were arguing in federal court that they should be allowed to provide such information services, a new wrinkle for a delivery-oriented, rather than content-oriented, industry. And, as again might be expected, newspaper chains (such as Knight-Ridder, which sold its television stations to provide capital for its own videotex plans] and other existing information providers were opposing any Bell market entry.
-
10.1.2.4 Closed-Captioning
A similar technology was of particular value and interest to a special and large minority of viewers. On March16,1980, NBC and ABC began to provide some of their programming with “closed captions,” a teletext-like service providing subtitles for the hearing impaired. Broadcast on line 2 1 of the vertical blanking interval, the captions (termed “closed” because they require special equipment tosee) are decoded and put on the screen by a device (sometimes built into the set) thatfor some years only Sears, Roebuck was willingto sell. (“Open” captioning for the deaf was usedfor a few years on PBS’s late-night rebroadcasts of the ABC Evening News, and some religious and other programs insert a sign-language version in a corner of the picture.) Closed captioning grew slowly from 10 hours ofABC and NBC and 20 hours of PBS programming in 1980; CBS was
496
Chapter 10 Challenge and Competition(1977-1988)
promoting a form of teletext that included captioning among other services and did not join until 1984. By 1989, 200 hours a week-virtually all-of network prime timeprograms, all CPB-funded programming, and some daytime children’s programs, sports, and even soapoperas were being captioned. Many producers now insist on captioning. The U.S. Department of Education alone paid more than $6 million a year for captioning to nonprofit organizations (such as the NationalCaptioning Institute and WGBH) and another $1 million to subsidize the manufacture of decoders. Captioning requires much time and skill, since only a fewof the words spoken in the time available can be shown, making “instant captioning” of events rather rare. 10.1.2.5 High-DeJinition Television
IRIIIIw.I
Another potentially far-reaching technology was the initialdevelopment in the 1980s of several competing systems of “high-definition television’’ (HDTV). The idea of HDTV is not a new one-the definition of “high” has simply climbed higher over the years. Considered in its moderncontext, however, HDTV dates from a 1,125line, wide-screen, stereophonic system of television developed by the Japanese network NHK and first shown in the United States in 1981 (see table on next page). While HDTV offered a tremendous improvement in both picture and sound, it didso, as usual, at a price. When first demonstrated in 1981,the HDTV system required six normal 6 MHz television channels tosend only one signal! By the late1980s,band compression and other techniques had cut thisto 8.1 MHz-still too much to be compatible with the American system of television allocation but workable for satellite or cable transmission, assuming receivers were available to consumers. For this reason, the Japanese proposed leaving their conventional television system alone and reserving HDTV for a direct broadcast satellite system. This “you can get the high quality of HDTV only if you buy new equipment” approachclearly differs from the quest in the United States for compatible systems (see pp. 321-323) but would open vast new potential markets for equipment manufacturers. Partially out of fear of contributing to yet another Japanese consumer electronic product influx, and in a desire to control their own technical standards, by 1987 several European countries had begun cooperative development of their own high-definition television tied to their 50 Hz electrical system, thus making synchronization between transmitter and receiver easier to achieve. And in the United States, several “advanced” television systems (ATVs) suggesting a kind of middle ground-higherdefinition pictures compatible with existing sets-were announced and initially demonstrated in 1987-1988. In mid-1988, the FCC bowed to political reality and decided that any broadcast HDTV system in the United States
497
10.1 New Technologies
HDm
R Improving the Picture By the late 1980s,the major technical issue in broadcast and cable television was the eventual adoption of one or more systems of high-definitiontelevision (HDTV). Companies-andcountries-viedtohavetheir product adopted as the system in order to reap the huge potential, manufacturing, and trade benefits of worldwide use by the late1990s. Many systems and approaches were suggested-this table illustrates only a samplingof the major systems projected. Number Aspect Ratio Country Bandwidth NTSC Scan (wlde :high) Required' Compatible? systm (firm) FW Comparison: The Current American Stsndard 4:3 6 MHz U S MSC States United
Comments
Lines
Present American Nsystem in use s l m 1941;with color since
525
1953 .A SlnglbChannel Systems
United States (David Sarnofl Research Center)
kTV I
I
Swr MSC
Stales United (Faroudja Laboratories)
HD.NTSC States United (Del Rey Group) Japan (NW
MUSE4
6 MHz
U S
5:3
6 MHz
Yes
4 :3
6 MHz
Yes'
5:3
525
6 MHz
US'
16:9or
525
Japan (NW
Eureka na
European Consortium
I
9.+ MHz
5251
1,050
4:3
B. DuaCChannel/Wldebsnd Systems
MUSE
system: Twc-stage first would enhance existing NTSC( A C T V ii is found below)
525
improved system receivers
lor current
Higher-definition of version current NTSC N improved system current options) MUSE "narrow" several
(one of
No
16:9
1 .l 25 pioneering system. The States demonstrated in United in 1981. Four digital sound channels
No
16:9
European 1,250around Designed 625-line. 50-fleld system; prototypes promised
Yes
16:9
1.125
Would use hvoseparate channels: receivers and VCRs be cheaper
5:3
1.125
Two-channel full H D N
1989-1990 U$
would
(Glenn) kTV ii
HDSNA
States United (New b r k Institute of Technology)
6
+ 3MHZ
United States (David Sarnoff Research Center)
6 +No 3 MHz
States United (North American Philips)
6 + 3MHz
Yesa
1,050 16:9
would have to accommodate the needto continue to supply programming to the nearly 90 million homes withNTSC-standard sets-for a time. But it had taken the British more than two decades to make a similar switch-over from their pre-World War I1 405-line system to a 625-line one, and that conversion was speeded by providing color telecasts only on the newer system. By the end of the 1980s it appeared that some meansof supplying higher-definition pictures was inevitablebut what form it wouldtake was
498
Chapter 10 ChallengeandCompetition
(1977-1988)
not clear. Many members of Congress-and Pentagon officials-felt that it would be necessary to support U.S. industry in this endeavor to prevent yet another part of the domestic electronics industry from moving production overseas. However, even though receivers were not available, as early as 1987 some farsighted producers were using HDTV as a production medium; very expensive prototype cameras and other equipment were snapped up for the production of commercials and theatrical “films,” with conversion to NTSC or 35mm film making them available to those using existing standards. This was not the only new production device. Field cameras and recorders no longer required weight lifters to carry and needed less light for a good picture than film: mobile satellite transmission equipment (used for news coverage in most largermarkets by the endof the decade) could fit in a suitcase; highly sophisticated character generators for inserting graphics on the screen were developed: and computerized animation or “paint boxes” were affordable by larger stations. The latter two permitted an operator sitting at a PC keyboard to replace a studio full of carefully painted backgrounds and mechanical counters during election or sports coverage. At the National Association of Broadcasters’ convention, almost every other equipment exhibit booth shows ause of computers. A couple of generations of broadcast videotape recorders had come and gone, with smaller, betterquality, lighter, and electronically controlled one-inch machines replacing the original two-inch, four-head broadcast VTRs for entertainment, and a whole family of half-, three-quarter, and one-inch portable equipment for electronic field production (EFP) and news-gathering (ENG) was now in use. Solid state CCD cameras were lighter and more rugged than those using pickup tubes, although they initially did not have studio quality. While one could no longer expect a studio camera to last more than a decade-as was the case with early generations of television equipment-the additional bells and whistles produced by manufacturers each year often were used to persuade budget managers that plannedobsolescence was not altogether bad if one gained new capabilities-and if one’scompetition had just bought that same newpiece of gear. 10.1.3 Technology Overview
m-
At the simpler, cheaper, and smaller end of the spectrum of consumer devices were ever-smaller radio and audiotape cassette machines with tiny earphones, allowing radio listening, often with surprisingly high fidelity (some devices had five-band graphic equalizers), in private in the midst of public places. Often called “walkmen” (after a Sony trade name), these radios were miniature throwbacks to the earliest days of radio listening, when earphones were a limitation rather than a benefit, but they also
10.2 Stationsand
Systems
499
threatened the shiny, large “boom box” stereo radio-cassette players, except where seeing-and hearing-one’s media had a socialrole to play. As for discussed on p. 570, the FCC’s unwillingness to set technical standards AM stereo radio has led that development to stagnate, even though its proponents’ belief that stereo would enable AM once again to become more popular than FM ignores both the higher fidelity of FM broadcasting and the pivotal placeof programming in listener preferences (see pp. 526-529). Where broadcasters had been sharply concerned by the rising number of competing delivery systems early in the1980s, by 1987 they were considerably calmer, possibly more nimble, and perhaps more resigned to added competition. It appeared that only cable television among delivery systems, and VCRs among consumer electronics devices for the home, had broken into the magic circle of electronic media reaching a majority of homes, and both relied heavily on broadcast programming. Manyother delivery options were of little interest to audiences and advertisers alike (see pp. 524-525). Still atthe center of it all, as had been the case since the late 1940s, were the family television receivers. They were larger now (26 inches was a common screen size, and projection screens up to several feet in diameter were selling briskly by the late 1980s) and were mostly in color. They were also increasingly augmented by improved sound-including some programs in stereo-and related systems such as a “picture-in-picture” circuit that enabled a viewer to watch at least part of two programs at once. Television receivers were as common in the bedroom as in the living room, and sets could be found almost anywhere in the home. Handheld remotes allowed one to change channels, adjust sound volume, and control VCRs without leaving one’s chair. No matter what delivery system was used, the home (and, increasingly, portable) receiver still was needed to interface the program supplier and theviewer.
10.2 Stations and Systems pa*ew
From the very beginning of radio broadcasting in the 192Os, the local service nature of the mediumhad been central in theway stations were owned and operated, the type of programming they provided their listeners (at least some of the time), and the advertisers to whom they appealed. This was a nationalpolicy, declared most clearly in thelanguage of the Communications Act of 1934. Early television followed suit, though nationalprogramming took hold far earlier in the history of that more expensive medium. Yet, certainly by the late 1970s if not before, the once-local nature of radio and television had fundamentally changed, with avariety of implications for both older and newer media. In the ever-tighter competitive search for programming, advertiser support, and audiences, broadcast stations had evolved from locally programmed media often reflective of their community of license to mere local outlets for one or more national
500
Chapter 10 Challenge and Competition (1977-1988)
networks (television stations and cable systems) or formats (radio). A major force driving this change was the high cost of local production of any kind of program compared with theability of networks and syndicators to spread their production costs across many outlets. To some extent, this shift was due to the increased number of stations on theair-nearly 13,000 by late 1988 (not countingLPTV and other minor services), compared with fewer than 1,000 at the endof World War II-all competing for audiences andadvertisers. But the change was also the result of deregulation (see pp. 566-569) that saw the FCC pulling back from imposing any kind of local service requirements. Stations became more like any other businesses in the eyes of most broadcasters-who were rapidly entering managerial ranks from business schools and other industries rather than from lower operational positions in broadcasting-and in the eyes of their regulators, thus making a once unique service with special “protections” more vulnerable to competition from unexpected quarters. A strong indicator of the shift in role of broadcasting was the rapid change in ownership, causing ever-higher station prices, that characterized the 1980s. This increase in mergers and takeovers was sparked by the FCC’s relaxation of long-standing multiple ownership and “trafficking” rules (see pp. 575-577) combined with a perception that many broadcasting companies were worth far more than their stock prices indicated. The most important rule change was the lifting of the number of stations any one entity could own from the 7 A ” 7 FM-7 television limit set in the 1950s to a new 12-12-12 rule in 1985 (see pp. 576-577). The first of the cross-media mega-deals in the 1980s was the Westinghouse Broadcasting takeover of TelePrompTer, then the largest cableMSO, for$646 million in 1981. Westinghouse sold off its cable acquisition just four years later (by then 115 systems serving 2.1 million subscribers)for a substantial profit bydividing its systems among several previously competitive cable MSOs. The widespread buying and selling of cable systems, usually noted only by the communities served (and those lending money for the purpose), obscured the slow movement of more and more systems into the control of the top 100 (or top 10) MSOs, another change from theoretical local control to control by national corporations. Other major deals concerned network control (see pp. 510-513) and the purchase of stations for breathtaking prices. Australian press baron Rupert Murdoch purchased the highly successful Metromedia chain of seven television stations(reaching about a fifth of the nation’s population, close to the limit established in the 12-12-12 rule) in 1985 for $2 billion-and he hadto become an American citizen before the FCC would allow him to take over the station’s licenses. (This action put him insome difficulty in his native country.) The buywas a key part of his planto develop a fourth over-the-air network (see p. 512). Desperate for a toehold in the second largest market in the country, Tribune Broadcasting (WGN in Chicago and WPIX in New York) paid out $510 million for the license of Los Angeles independent television station
10.2 Stations and Systems
501
KTLA in 1985-a record price for any single broadcast outlet. KTLA had been purchased for $245 million just two years before by Golden West Broadcasters, so the station had, in effect, increased in value by about $300,000 for each day Golden West owned it before the sale to Tribune. Critics of deregulation pointed to such transfers as proof that animportant “scarcity” still existed when demand for stations could leadto such prices. As with many industries,there seemed to be an almost frantic tendency for media organizations to merge with, buy out,or otherwise acquire other media firms in order to grow larger, often at the expense of potential competition (see p. 506 and AppendixC, Table 9-D).While most mediacompanies are quite small when compared with America’s manufacturing and service giants, recent large acquisitions have involved big money. Rupert Murdoch bought TV Guide for $3 billion. Warner Communications, already a major supplier of television programming (Warner Brothers studio), bought one of the mostsuccessful production houses, Lorimar Telepictures, in 1988,and thenalmost immediately announced a proposed merger with Time Inc. (a large MSO, owner of HBO and other cable networks, and magazine and book publisher) early in 1989.Warner and Time would have an annual revenue of approximately $10 billion and will be the largest worldwide television producer, the largest magazine publisher, the largest record company, the secondlargest cable operator, the largest pay-TV programmer, and the largest direct marketer of books in the United States. 10.2.1
FMPullsAhead
The radio business faced an increasingly difficult competitive situation after 1977 as a steadily larger number of stations fought fora more slowly expanding advertising market and listener pool. In most cities, radio stations had to make do with a smaller proportion of both. Some stations could not find formats to increase audiences quickly enough and either changed hands (some stand-alone AM stations were sold at a loss in the 1980s) or went off the air. But the decade after 1977 is mainly the story of an historical reversal, with the longtime second service, FM, finally coming out on top. Although the number of AM and FM stations were roughly the same, by the late1980s FM radio stations collectively served about three-quarters of the nation’s radio audience. There were no surprisereasons for this change. For decades, it hadbeen known by broadcasters and advertisers-and the public-that FM stations aired music withhigher fidelity, were not subject to most naturaland manmade static, could now be easily tuned, had a dependable and calculable service area, and could stay on theair 24 hours a day-unlike AM stations, which usually could meet only one or two of these standards. Further, by the late 1970s F M receivers in all sizes and price ranges were universally available. Almost all new automobiles now had AM-FM receivers, and
502
Chapter 10 Challenge and Competition (1977-1988)
many had audio cassette players. Now the publicrealized all of this, and its infatuation with stereo high-fidelity music caused it to gravitate toward FM. Although most FM channel assignments had been applied for by the mid1980s, the FCC allocated an additional several hundred channels, causing the audience-advertiser pie to be spliteven more ways. Because of the FM signal’s line-of-sight range, however, this step caused less interference on the FM band thanadding more AM stations would have caused on its band. The FCC’s halfhearted support ofAM stereo (see p. 570“actually, the commission avoided the decision on which system to adopt, leaving it to the marketplace, which had kept its hands off as well), its allowing of higher power for the smallest stations, and its arranging with Canada and Mexico for more U.S. AM stations to stay on the air for more hours helped AM, but not much. International plans to expand the standard broadcast band some 10 channels beyond its then1605 kHz upper boundary would onlyprovide more competition for the beleaguered existing AM broadcasters-but it wouldalso supply a toehold in the business for hungry newcomers to the industry. The real reason for AM’s decline, although each of the factors mentioned above is real, was programming (see pp. 526-527).
-
10.2.2 I s More Television Better?
Although some newtelevision receivers have the ability to show more than one picture at a time, and the substantial majority of the public with VCRs can record one program while watching another, it isnevertheless true that one can pay attention to only one program at a time-and there is a finite amount of programming talent. The need for more programmingbecame evident in the late 1970s. The pressure came, in part, from a growing number of independent television stations, many onUHF. There were 78 such stations in 1980 and more than 250 by early 1989, strengthening their political clout to the point where the Independent Television Association (INTV) was able to schedule a dinner on the samenight as the NAB’S-and draw an equally impressive lineup of congressmen and regulators. The FCC had spent alot of time and money in the 1970s on a variety of studies, reporting to Congress on howto improve UHF television transmission and reception, so that UHF, the proverbial second-class service, could compete more equally with VHF, though always subject to the basic spectrum propagation limitations imposed by nature. The growing number of independent stations (from 120 in 1980 to nearly 300 in 1988) tended to be “lean and mean,” willing to experiment with programming, technology, and other new ideas. Because the independent stations are able to move fast, it is probable that when higher picture definition becomes feasible they will jump faster than most network affiliates, if they can afford to. But the outlook is not all favorable. Most independent stations, except for a handful in the largest markets-such
10.2 Stations andSystems
503
as WGN (Chicago), WPIX (New York), KTLA (Los Angeles), and WTBS (Atlanta), which are serving assuperstations supplying programming to cable systems around thecountry-are constantly on thethin edge of bankruptcy, Programming costs are kept as low aspossible-few have any news staffand only nimble counterprogramming (for example, running entertainment programs while the network affiliates are airing news) brings in a large enough audience to attract advertisers. In markets where specialization pays off, independent stations tend to air older feature films, some sporting events, game shows, children’s cartoons, and hourafter hour of old network reruns. Even though independent stations brag about their status,there are few that would not jumpat a network affiliation (even with as new an entity as struggling Fox-see p. 512)if one were offered. Network affiliates (the number of which varied little in this period), on the other hand, often have fallen into a rut. Programming relies on the network and on tried-and-true syndicated programs. Evennews, where the most competition occurs, tends to cloning of content and personnel. The number of affiliates of the three major commercial networksis unlikely to grow substantially, since no more than one station is affiliated in a given market. A fourth commercial network, such as Fox, would have to draw its affiliates from the ranks of independent stations, although as one network‘s programming goesdown in popularity and another’s goesup, there are occasional defections of strong stations from the weaker to the stronger network.This sort of change, of course, has a ripple effect through an entire market. One attempt to broaden the variety of people able to own and operate television stations was the well-intentioned but apparently misguided attempt by the FCC to launch a low-power television (LPTV) system in the early 1980s.Based on results of some Canadian experiments, the FCC late in 1980 announced its intention to establish potentially thousands of spectrum allotments for tiny television stations. Most would be UHF outlets, using up to 100 watts of power (or in some cases VHF, with only 10 watts) for a coverage area with a radius of up to five or six miles. These new stations would be dropped into theexisting allocation structure of full-power stations but with the new LPTV outlets forced to shield the larger stations from interference. The FCC claimed to be looking forward to a new age of neighborhood television stations and rural services where none existed thus far, and for outlets owned by members of minority groups and women, for a (relatively) low construction price of perhaps $200,000. Naturally, legislators representing the communities where the new stations would locate were in favor of the plan-and the goodwill the FCC got at first wasperhaps its only reward. Two problems arose immediately. For one thing, the FCC was so impressed with its brainchild thatit allowed applications to be filed even before final forms and rules had been developed. Some individuals, groups, and firms (such as Sears, Roebuck and Co., which planned a network of more than 100 LPTV stations) filed literally hundreds of applications, and consulting engineers and lawyers cranked them out in assembly line fashion.
504
Chapter 10 Challenge and Competition (1977-1988)
Belatedly calling for a freeze on new applications,the commission began to dig through the pile of paper, the processing of which had become more legally complicated than getting the new service on the air. The pressure from impatient LPTV applicants was one reason the FCC approached Congress requesting permission to select applicants by means of a lottery rather than by expensive and time-consuming comparative hearings. In 1982, Congress agreed, and, helpedby new computers, the commission began to process applications, allowing the first stations to go on theair. The other problem was more serious and long lasting-how to support such tinystations. Advertisers were not usually interested in their miniscule audiences, and few stations could afford the fees to secure programming for pay-TV (already available on cable in most cases). While new networks of LPTV stations were a possibility, most knowledgeable broadcasters (and, eventually, many nonprofit or alternative media groups) decided that there was little to gain from LPTV. By the endof 1988,455 LPTV stations were on the air (withcall letters that included their channel number), mainly in rural and some suburban areas, and another 1,359 had been granted construction permits. But the dream of a viable new television service seemed as far away as ever, and the totalLPTV audience was miniscule. Another minor entry into the television outlet business was a service oddly named“wireless cable” to try to make its function more understandable to the public. More formally known as a multichannel multipoint distribution service (MMDS) or a multipoint distributionservice (MDS),this is a microwave broadcast (rather than point-to-point) delivery system, originally created by the FCC in the1960s for business-related common carrier use. With channels widened to carry video signals in the 1970s, and then with a total of eight channels allottedto each of the top50 markets in 1983, MMDS took on the potential of competing with cable in some unwired urban areas. Being a “broadcast” service (although the FCC vacillated between regulating it as a common carrier or as a broadcast service), MMDS was far less expensive to build (just a transmitter and special antennas) than the wired connections between a cable system’s headend and each home served. Subscribers still had to pay for their own receivers. But its operators suffered limited growth in the face of the cable industry’s reluctance to sell them cable-controlled programming. By 1988, MMDS served only a small proportionof the national audience and faced a bleak future as the number of cities lacking cable service dwindled. A variation of MMDS, keeping costs even lower, used leased time in the evenings on the instructionaltelevision fixed-service (ITFS)channels in the same band as MMDS that were owned and operated by educational or religious organizations for educational programming during therest of the day. The payments from MMDS operators were very welcome to the educational licensees, and theMMDS operators benefited by not having to apply or pay fully for their ownfacilities. As the 1980s drew to a close, the futureof this service was unclear.
10.2 Stations and Systems
505
An oldertelevision broadcast service saw a brief period of marginal success from 1977 to the early 1980sand then succumbed to newer competition. As noted on pp. 416-417, though the FCC had approved a new system of subscription television ( S W ) in 1968, the first two channels (in New York and Los Angeles) did not air until 1977 because of regulatory constraints. By 1983, about 27 pay stations were in operation, most offering scrambled pay signals at night and regular “in the clear” broadcasts during the day. Another 20 outlets were announced as being in various stages of planning. But the surface success was misleading, and the licensees knew it. Pay-cable, with multiple channels, was rapidly expanding and closing down opportunities for S W stations providing but a single channel of premium programming. By 1987, only two S W outlets remained in business, both of them LPTV stations. The former S W stations had nearly all converted to regular(independent) broadcast operations, some of them specializing in “home-shopping” programming, which became popular and profitable in the late 1980s. 10.2.3 Cable-The New Basic Distributor
twmumn
One of the most important single changes in electronic media in this era was the expansion of cable television from a minority service to a majority distributor of video. As is evident in AppendixC, Table 9-B, the numberof cable systems and subscribers increased substantially in this period. Cable penetration soared from just under 18% in 1977 to more than52% in 1988. Avariety of factors contributedtothis rapid expansion after several decades of slow growth to the late 1970s. Perhaps most important was the convergence of several kinds of demand. Television viewers were interested in getting clearer reception of local stations even in well-served markets and wanted some distant (usually independent) stations for their movies and sports. By the late 1970s, demand for pay-cableservices by viewers interested in a new way to see films, and by cablecasters eager for a piece of additional income, helped to lead the way to cable expansion. After 1980, desire for the specialized new services (see p. 516), especially news and sports,attracted viewers who did not care about movies. Important too was the rapid deregulation of cable (see pp. 467-469) by the courts and the FCC after the mid-1970s. This had the effect of reducing uncertainty about what programming cablecasters could carry and settling the nagging question of copyright (see pp. 577-578). As cable systems increased in importance nationally, they also became more controversial in many markets. The late 1970s were a time of frantic competition for long-term (usually 15-year) franchises in the last cities and suburban areas to be wired. The cost of applying for a major franchise, often several hundred thousand dollars, was a factor in industry consolidation, for smaller companies could not compete in the face of such financial pressures. Several scandals resulted from cable company payoffs to city
506
Chapter 10 Challenge and Competition (1977-1988)
officials, and plenty of perfectly legal but less than ethical means were used to obtain franchise agreements. Mostpopular was the techniqueof giving a small portion of the stock of an applicant to various officials and community leaders in return for their backing. Sometimes the fault lay with the city’s excessive demands-in one case, a successful applicant had to promise to plant several thousand trees in the community. In what was logically an adversarial relationship, the maincable trade group, the National Cable Television Association (NCTA), constantly faced several associations of city officials, especially the National League of Cities, as each tried to get the upper handin persuading Congress and theFCC. Until the late 1980s,cable did consistently well in these policy and legal face-offs, in part because of strong congressional support. Cable played on its “local” nature and often donated time to incumbent officials to curry favor. As with broadcasting and other media, cable’s expansion wasfueled in part by a growing trend toward consolidation of ownership. Where the business had been characterized by “Mom and Pop” small-town community antennas into the 1960s,by the 1970s cable showed signs of both needing and attracting big money. Needing cash because of the capitalintensive nature of building new systems before any income was forthcoming, cable owners found that larger systems were more attractive to lenders. Cable became a more impersonal business asa result. By the late 1980s,Tele-Communications Inc. (TCI) was thelargest multiple system operator (MSO), with about 20% of all cable subscribers. Its president, John Malone, constantly defended his firm’s success while others held up TCI as an example of corporate greed and a portent of where cable was headed. Neither Mom nor Popremained part of the cable picture (see Appendix C, Table 9-D). For a brief time (1977-1984)many eyes were on Columbus, Ohio, as the Warner-Amex cable franchise there operated its “Qube” system featuring five interactive channels. Widely publicized across the country, the interactive channels allowed viewers to vote on simple questions in talk shows and the like. Many predictions were made about the potential for wide adoption of such technology for future polls and shopping. But Warner found that few subscribers used the feature after the novelty wore off, and Qube’s interactive channels closed down in 1984 after a loss of some $30 million. Some pessimists felt the endof Qube might spell thereal end of the wired city concept (in which homes would be connected by cable networks and computers rather than bybroadcast channels) thathad been discussed and debated for almost 20 years. One final but always faithful indicator of cable’s increasing importance among electronic media was thecompetitive reaction of other media. Jack Valenti, longtime Washington lobbyist for the motion picture industry, seemed to buildhis speeches in the 1980s around attacks on cable, describing it as a monopoly menace controlling a bottleneck delivery system into the nation’s homes. The National Association of Broadcasters, too, was
10.3 Networks: A NewAge
507
constantly bickering with theNCTA about such concerns as must-carry and cross-ownership rules (see pp. 575-577). By late in the 1980s, it seemed that cable’s success curve in both the marketplace and the policy arena was likely to turn downward. For one thing, most initialfranchise construction was finished, leaving only system enlargement by reconstruction and, more likely, takeovers of small companies bylarger ones. There was some concern that cable “overbuilds” (a hitherto rare situation in which a second company installs a parallel network in a given community, competing directly for subscribers) might result. For another, over half of the audience ownedVCRs and often used them rather than watching either over-the-air or cable television.
10.3 Networks:A New Age In the mid-l980s, Americancommercial broadcasting networks underwent more changes than they had since theirestablishment 40 to 60 years before. They changed ownership; they did not exactly welcome a great deal of competition; and even the definition of “network” changed. No longer was a or associated network “two or more stations interconnected by some means for the often simultaneous transmission of the samemessages or programs.” With VCRs and round-the-clock cable services such as CNN, the need for simultaneous transmission to the public disappeared, and the medium serving the publicoften was a cable system that carried the local affiliate broadcasting station. Interconnections now were by satellite links rather than wire or microwave circuits. 10.3.1 New Entrants
The worlds of broadcasting and cable networking were made more exciting, less predictable, and perhaps riskier by the activities of worldwide press baron Rupert Murdoch and broadcast and cable entrepreneur Ted Turner. Able to command the powerof millions of dollars of their own and of other investors, both men moved to take important ownership positions in broadcasting and cable services. Turner came fist with what became his “superstation,” WTBS-TV in Atlanta, followed by the Cable News Network (see p. 540) and Turner Network Television (TNT!)in 1988. Turner specialized in ideas that others had not thought of or had rejected. For example, his synergistic ownership of a small Atlanta UHF television station and the Atlanta Braves led to an attractive package for cable system operators when it was madeavailable (for a small sum per month per subscriber) via satellite. In addition,Turner could charge advertisers national advertising prices for what originally was a small UHF station! Some of Turner’s later investments-in companies owning feature films, such as MGM, for example-were to ensure plenty of “product” for WTBS to
508
Chapter 10 Challenge and Competition (1977-1988)
distribute. Turner, whose ability to plan andtake risks led to hisbeing captain of more than one America’s Cup sailboat racing defender, at one time also tried to purchase CBS (see p. 511). His establishment of CNN, thought by many to be a financially foolish move, turned out to be a success. Although the bankers achieved stronger control over Turner’sempire when he needed cash to start new ventures, his ability to come up with successful ideas has seldom been matched in broadcasting’s history. Rupert Murdoch, whose life story parallels those of other press magnates, such as theCanadian-born Lord Thomson of Fleet, started his career buying and operating newspapers in his native Australia. Soon he owned a major share of Australian commercial television broadcasting and expanded his activities to other continents, buying newspapers, magazines, and broadcasting stations. His interest in starting a fourth network-the first since the abortive Overmyer Network (see p. 422) 20 years beforepredated his purchase of the Metromedia group of seven stations (see p. 500). In 1984, Murdoch hadtaken a half-interest in 20th Century-Fox, buying the to combine theproduction capacity of rest in 1985. He announced his plans the film studio with the former Metromedia stations, and future affiliated stations, to create the Fox television network. He planned to begin his new network slowly, with a late-evening program, and then expand intoprime time, adding a day or so each year. In 1988, he added to his broadcastingrelated properties with the $3 billion purchase of Triangle Publications, including the immensely popular (and profitable) weekly TV Guide-which might be a useful vehicle with whichto publicize the Fox network. In the United States, Murdoch had to become an American citizen (at some legalrisk to his Australian broadcasting holdings) in order to buy television stations. In the 1986-1988 period, he owned television stations and major daily newspapers in the samecities-WNYW and theNew York Post, and WFXT and the Boston Herald. Although such cross-ownership of media in the same market was against FCC rules, the commission traditionally granted waivers for a year or two until one or the other medium could be sold. Murdoch decided to fight the rule and showed himself to be a master of political public relations when he went on the offensive aftera clause was inserted by Senator Ted Kennedy at the last minute into a Senate appropriations bill that forbade the FCC to drop the rule or grant indefinite waivers under the guise of “deregulation.” It so happened that Murdoch’s stations were the only ones waiting for such waivers, and he went a long waytoward establishing himself as an underdog. Later, he tried to place some of his holdings in trust, but even that had to be modified to include a firm commitment to sell some. Meanwhile, as all-channel (VHF-UHF) receivers became universal, and as more UHF stations were established in larger cities, the Fox television network found many more independent stations hoping for a network affiliation than had been available to Overmyer (or Kaiser or DuMont before him; see pp. 290,422).By keeping a close eye on expenses, Murdoch seemedmore likely to succeed than his predecessors (see p. 512).
10.3 Networks:ANewAge
509
As discussed later (see p. 616), new radio networks appeared in the 1980s for the first time in decades as satellite delivery made specific kinds of music andtalk formats less expensive. 10.3.2 Competitive Pressures
Broadcast networks flourished-as did the American economy, forthe most part-in the late 1970s. The antitrust suits brought in 1972 (see pp. 419420) were eventually settled-NBC’s in 1976, with ABC and CBS falling into line in 1980. But while the overall pattern of network dominance of television continued, traditional over-the-air networks saw theiraudiences (in terms of percentages, if not absolute numbers fed by population growth) dwindle slightly every year after the mid-1980sas a result of competition from both VCRs and cable, An excellent snapshot of the television networks both at the peak of their power and onthe brink of decline is foundin the 1980 report of the thirdFCC network inquiry. Following the Barrow report (see pp. 391-392), the FCC did not again assign a special staff to report on network television for two decades. An Office of Network Study reviewed network programming practices but had little impact on policy and faded from sight in the late 1960s. A few years later, however, affiliates’displeasure with the tiny amount of then-huge network profits being paid to them began to reach the ears of the commission as well as stockholders. Specifically, Westinghouse Broadcasting and Cable Inc., which owned stations affiliated with each of the three networks, filed a formal petition with the FCC in 1976 asking for an investigation of affiliate compensation and other network practices. Pressure from Congresscontributed to the FCC’s formation of a Network Study Special Staff in 1978. Codirected by an attorney and an economist ( a n indication of how much the latter field had caught up withthe former in helping to shape regulation of business), the inquiry developed or contracted for 18 staff reports issued in 1979-1980 examining both traditional broadcasting and the developing new services. Taken together, the studies, issuedin only limited numbers, provide an excellent view of the industryas it existed at that time and how it wasexpected to develop. The final report took a very different approach from its 1941 and 1957 predecessors. It strongly criticized most existing commission rules limiting network behavior, saying that they usually did not work and, at any rate, that their economic cost was far higher than any social gain. The development of cable and other competing services sparked the network staff to urge on the commission a welcomingapproach to newer services seeking to compete with the traditional networks rather than the generally restrictive approaches taken thus far. But when theFCC moved to act on thestudy’s recommendations, voices of the competition-those now “in” rather than those trying to gain a foothold-were heard loud and clear. A planto drop the Prime Time Access
510
Chapter 10 ChallengeandCompetition
(1977-1988)
Rule led to heavy pressure from the program-producing industry based in Hollywood, which had beengiven new life by the rule whenit was instituted in 1974. Similarly, a 1983 attempt to drop some complicated and somewhat arcane rules banning networks’ financial interest in the entertainment programs they carried, or in their subsequent syndication, also brought Hollywood pressure groups out in strength. FCC chairman Mark Fowler was called in for an unprecedented dressing down (press releases spoke of a “briefing”) by President Ronald Reagan, who may have thought back to his movie actor days when he made it clear that the FCC was to leave the network-limiting rules in place. Despite these careful studies showing the television networks to have less power than theyonce did, old rules setup to protect then-defenseless programmers from network controls would not be easily dropped, even after the ratings services and headlines showed everyone that the day of the all-powerful networks was done. In 1988, the FCC turned to another of the now-eight-year-old recommendations of its network study and announced plans to ease rules banning network ownership of cable systems. 10.3.3 Network Upheaval In a matterof months during 1986 the television industry was transformed beyond recognition. All three of the commercial networks-against which the progress of the other media inevitably is measured-came under new ownership or leadership. Each of the acquirers pledged to run these huge television machines in a more businesslike fashion than before, with fewer frills and executive perquisites, less staff, greater cost control and strict attention to the bottom line. So the networks have lost during the past year not only their near total domination of the television market butalso their swagger, their corporate identities and perhaps also their hallowed traditions.-Les Brown, writing in Channels Field Guide,1987, p. 9
The upheaval that longtime television critic Brown reports was suddenit cracked open a closed network shop that had operated with unchanged ownership and surprisingly staticmanagement since 1953. The revolution began with the industry-stunning announcementin March 1985that group owner Capital Cities Communications was taking control of the American Broadcasting Companies, operator of the ABC radio and television networks, in a $3.5 billion deal. ABC chairman Leonard Goldenson, who had taken over ABC in 1953 (see p. 288), had, on theeve of his retirement, decided to sell hisshares. The FCC approved the sale in November [amarked contrast to the months of proceedings concerning ABC in 1953-1954). The company changed its name to Capital CitiedABC. Cap Cities, as it was known, and its chairman, Thomas Murphy, had a well-deserved reputation for attention to the bottom line, and ABC was merely the first of the networks to resort to layoffs to prune overexpanded staffs and improve shortterm profitability.
10.3 Networks:A New Age
511
In contrast to the friendly takeover of ABC, Atlanta-based Ted Turner announced just a few months latera brash attempt atan unfriendly (histarget was clearly not interested) bid for control of the muchlarger CBS. While given little chance of success by most Wall Street experts, the takeover attempt was in theheadlines for weeks as both sidesmaneuvered. CBS chairman Thomas Wyman (he had replaced John Backe in 1980 and hadbecome chairman when founder William Paley retired in 1983) headed the network's defense while overseeing its now widely diversified assets. Late in 1985,Turner withdrew his offer-having sold his own CBS stock back to the network for a tidy profit. In fighting off Turner, however, CBS had gone deeply into debt to buy back a fifth of its own shares. Thus weakened and needing cash, CBS had to sell off its St. Louis owned and operated station KMOX-TV and accept the friendly purchase of a large minority of its shares (just under 25%) by Loew's Inc. (chiefly hotels and movie theaters) chairman Laurence Tisch. Late in 1986,after a boardroom tussle in which Tisch and Paley collaborated, Wyman was eased out andTisch becamethe chief operating officer of the network. William Paley was brought back into the nowlargely ceremonial position of chairman. The Tisch era at CBS began with a new (for CBS) era of austerity, with extensive personnel layoffs, low resultant morale at CBS News (even an offer to buy the news division by several of its key employees), and theselling of many of the network's nonbroadcast interests. One of these sales, in early 1988,was of Columbia Records to Sony for $2 billion. The changes at CBS were reflectedin its unaccustomedly poor audience ratingsthe network ended the1987-1988 season in third place for the first time in its history. A much smaller company than either of its competitors after all these sales, CBS in the late 1980s seemed ready to use its hoard of several billion dollars to expand its self-defined sphere of broadcasting (and possibly cable) operations. Late in 1988,CBS bought control of a VHF station in Miami, increasing its 0 & 0 holdings to five (see p. 289). Change came as well to NBC. In January 1978,the network announced a substantial coup-it had hired away ABC program chief Fred Silverman to become its new president. Silverman was then an industry wunderkind who could do nowrong and who seemed to have a magic touch with programming. He had propelled longtime number three ABC to the top of the ratings heap. But this final shift (Silverman was the only executive to have had senior programming positions with all three networks) was one too many. NBC floundered througha series of expensive program disasters and stayed in the ratings basement. Finally, in June 1981, RCA's chairman Thornton Bradshaw replaced Silverman with the widely respected programming chief of MTM Productions, Grant Tinker. Tinker wrought wonders for NBC with his quiet, relaxed California style of management and sure senseof the right balance between high quality and popularityin programming. NBC moved to first place in network ratings in 1983 and stayed at or near the topfor the restof the decade.
512
Chapter 10 Challenge and Competition(1977-1988)
But dramatic change was also coming for the senior network. Late in 1986, the broadcasting community was surprised hear to that MC’s parent,
RCA, had been taken over by General Electric in a $6.28 billion deal-and that thus NBC would be under new ownership. The sale represented an ironic return to its origins by RCA-for, as detailed on pp. 57-58, General Electric had created RCA in 1919. A year later, Tinker retired as NBC’s president to return to his first love, Hollywood program development, and the network was taken over by a GE official. One of Robert Wright’s first decisions, in July 1987, was to sell off the NBC Radio Network (for $50million to Westwood One), thus giving up on radio networking to concentrate on the more lucrative television service and then selling the NBC-owned and -operated radio stations piecemeal. The pioneering radio network was no longer in the radiobusiness.* As mentioned earlier (see pp. 290 and 422), the possibilities of a fourth commercial television network had been discussed and even attempted several times. But that inveterate acquirer of media properties, Rupert Murdoch, appeared in the late 1980s to be making the best try yet at establishing a fourth network in 1986 with the Fox (named after movie studio 20th Century-Fox, which healso owned) television network (see p. 508). This is not to say that the Fox network found easy sailing: its first big show, a late-evening attempt to compete with the venerable Tonight show starring Johnny Carson, featured Joan Rivers (a frequent Carson vacation substitute). In only a matter of months, Rivers and Fox came toa parting of the ways, probably due to the program’s low ratings-and Carson’s resentment over her defection seemed likely to put a crimp in her future career. Fox then presented several prime time original (but inexpensive) series programs for two evenings a week. Ratings were poor, however, and by 1988, some affiliated stations were reverting to the independent modeof playing movies and off-network reruns rather than sticking with a ship only half afloat. But after Foxobtained the rights to popular specials such as the 1988 Emmy Awards, stations found the economics of affiliation with Fox more favorable. In June 1988, Fox’s deleting all political content of a multihour rock concert in honor of black South African leader Nelson Mandela raised a great deal of protest, particularly from performers in the concert. (In the 199Os, Murdoch’s Asian direct broadcast satellite venture was similarly attacked for its kowtowingto China.) Nevertheless, Fox’s plans remained on schedule, with a third evening of prime time programming scheduled to start in mid-1989. Fox reported losses of $80 million in fiscal 1988-an indication of just how expensive starting up a fourth network could be. Radio networking-or, in1980s terms, national distribution of program formats-revived to some extent in the 1980s, thanks to both satellite *RCA suffered further dismemberment when its consumer electronics division was sold to a French company. By this time, only one major American company-Zenith-still manufactured television receivers in the United States, and it gave i up n the late1990s.
10.3 Networks:ANewAge
513
a
The Networks’ Eye in the Sky An artist shows how the early Westar VI satellite could cover the continental United States with “spot beams” aimed at Hawaii and Alaska (over the horizon in this view) from its geosynchronous orbit,22,300miles out so located also allowed broadcast in space above the equator. Communication satellites and cable networks in the1980s to efficiently cover vast areas like the entire country, wire, cable, and microwave links to moving electronic media from reliance on terrestrial application of space age technology for their interconnection.
Courtesy NASA.
technology (see p. 486) and more competition among the increasing number of stations. Following television’sexample, a satellite transponder allowed a radio program service to reach hundreds of potential subscriber radio stations (many of them fully automated) without the need for expensive wired interconnections. By the late 1980s, despite some consolidation, there were more than 20 services, most delivered by satellite. Tkanstar Radio Network and Satellite Music Network, for example, together produced 15 different 24-hour music formats. National Public Radio and American Public Radio were early and successful users of satellite technology for program distribution. At the sametime,traditionalradio networks-music andnews services-changed hands. ABC had the most affiliated stations, as was the case for nearly two decades (see Appendix C, Table 2-B). Westwood One, a California-based syndicated program service, purchased the Mutual network from Amway in 1985 for $39 million and, as noted earlier, added the
514
Chapter 10 Challenge and Competition (1977-1988)
NBC radio network to its growing holdings to broaden its role as a provider of middle-of-the-road features and musicservices. Westwood, then thesecond largest network operation, continued to operate as M C ,Mutual, and the original Westwood One program service. 10.3.4 Coming of Cable Networks
neren
Although space communications satellites became increasingly important in both television and radio broadcasting program distribution in the 1980s, this was old hat to cable programmers. The pioneering efforts of HBO and Turner (see p. 411) started a bandwagon of new services (see the table below), allseeking to differentiate their content from rivals and all seeking to secure use of a transponder on oneof the few satellites to which early cable system television receive-only antennas (TVROs) were aimed. Indeed, until TVRO costs declined after 1980, allowing a system operator to install multiple dishes aimed at different birds, it was importantfor cable program services to be on the same satellite as their competitors. Cable's demand for satellite transponders was equaled by the demand of other users (the n
Auxiliary Television Services 1977-1989 Whileover-the-airpaybroadcasting (STV, not to be confused with DBS) had a fairly short life span, multichannel multipoint distribution services( " D S s ) and low-power television (LPTV)appeared to offer a niche service optionto full-power television stations by the end of the 1980s.For the successof competing cable, see AppendixC,Table 9-B. STV
Stations Year
24 29 12
1 977 1978 1979 1980 1981 1982 1983 1984 1985 1986 1987 1988 1989
Subscribers (thousands) (thousands) Stations Systems on
6 3 2 2 na
na
LPTV
Subscrlbers
65 29 2 44 3 54 6 7314 99
MDSNMDS
5 59 260 520 1,082 1,747 1,823 1,203 622 187 118 100
na
Air
27
na 252 na na 383'na 407 na 346 na
91 207 352 479 570 570 490 440 270 240 200 na
na na
316
457
'1986 data as of February 25.
Sources: STV and MMDS data through 1982 from Paul Kagan associates," Census of Pay TV Population," in MDS Databook 7982,page 13, as listed in Sterling (1984), pages33 and 255 (see Appendix D for full citation), showing data as of June 30 (MDS) and December 31 of previous year for STV stations. STV and MDS data since 1982 from Kagan Media lndex (May 17, 1988), page 8, citing data for last day ofprevious year. All LPTV data directly fromFCC, showing outlets licensed(not all are on the air)as of December 31 of the previous year.
10.3 Networks: A New Age
515
military and telecommunications carriers, for example), but ittook several years to translate the demand into newsatellite capacity in orbit. Beginning with HBO’s pioneering use of Satcom I in 1976, and lasting into the early 1980%the driving force in cable networking-and hence in the overall growth of the cable industry-was the appeal of pay-cable services to the public. Pay pioneer HBO was always the largest in number of subscribers (Appendix C, Table9-C). This Time Inc. service first faced competition after March1978 when Showtime, another first-run movie oriented service begun two years earlier in California, started satellite distribution. Other services started in the next two years included The Movie Channel, which became the first to provide movies 24 hours a day; Cinemax, also owned by Time Inc. and counterprogrammed with HBO; The Playboy Channel, carrying soft-core adult material; and several short-lived rivals, including at least two that attempted to provide more high-brow arts and performance content. All of these pay-cable networks worked in muchthe sameway. The pay service bought pay-cable rights to theatrical films or other content and sometimes produced special events itself. It then persuaded thecable system operator to carry and promote its service. The cable system operator then set about collecting money from the subscribers. First, there wasa flat monthly fee for “basic” service (originally just on-air stations, and later inexpensive national services, such as superstations in Atlanta, Chicago, Los Angeles, and New York, for which the operator paid a few cents per subscriber per month). With pay-cable, the operator also could charge an additional flat monthly fee (usually $7 to $10 by the mid-1980s) for everything carried by pay-cable services. (Usually, half of this fee was remitted to the pay-cable service.) Toward the end of the decade, many systems also offered pay-per-view (PPV), which brought in money for each showing ordered by the subscriber (see below). Each service offered a monthly menu of movies and specials, repeated on different days and at different times. Eventually, most cable operators had two or three tiers of service, each adding to the subscriber’s cost. By the mid-l980s, the pay-cable boom had flattened as the number of subscribers giving up service (“churn” in cable parlance) about equaled those signing up. Among the factors blamed were the increasing use of home VCRs (see pp. 410411 and 490-493), the ever-rising prices charged subscribers (particularly after the 1984 Cable Communications Policy Act [see pp. 574-5751 allowed cable operators to ignore restrictions in their franchises), and the limited amount of high-quality programming. The average cost per cable household per month had tripledto nearly $30, but the psychological limit still hadnot been reached. More than half of American households now subscribed to cable, and the cable MSOs looked around for additional ways to profit even while they engaged in wheeling-and-dealing consolidation. One way was a new version of an old idea-the notion of paying to see a specific program rather than subscribing to everything carried
516
Chapter 10 ChallengeandCompetition
(1977-1988)
over a channel or tier. This would be analogous to buying a single issue of a magazine at the newsstand rather than subscribing for a year at a much lower price per issue. Over-the-air pay-TV proponents of the 1950s originally had plannedto charge forspecific programs (seepp. 353-355) but had been unsuccessful. In the late 1970s, cable or MMDS operators in several major markets regularly transmitted scrambled pictures of special sports events. To receive an unscrambled picture, viewers could telephone the system and agree to pay a one-time charge to clear up the picture. The system's first regular national nonsports pay-per-view (PPV) services aired in November 1985 when Viewer's Choice, owned by Showtime/TheMovie Channel, and Request Television began.PPV could beoffered only on cable systems with computer-addressable decoder boxes, allowing instant descrambling of the PPV channel when viewers called to order a specific showing. The charges of $3 to $5 for each movie or event were very profitable for the cable operator, the PPV company, and the original supplier of the programming. PPV differed from HBO and other pay-cable channels by providing only a few first-run movies (often while they were still in theatrical release) or sporting events per month, heavily promoted and repeated at different times to catch all possible viewers. Much as the earliest television sets were to befound in public places like taverns, many membersof the public first became aware of the possibilities of PPV by its availability in many hotelrooms. Following the path of the pay services (but much less expensive to the supplier) came advertiser-supported basic cable networks, some of which charged systems to carry their service but were designed to be free of additional cost to viewers. However, speculation in the 1970s that there would be a flood of highly specialized cable services providing narrowcasts to targeted audiences, as a counter to the broadcast business, did not materialize. The costs of developing specific programming delivered by satellite to relatively small numbers of viewers were just too high. Some observers believed that the amount of talent needed to produce such programming also was near its limit. Thus, much of cable television increasingly began to resemble broadcasting in its content, even on services designed specifically for cable. Several cable networks tried to repeat the old radio approach of being all things to all viewers (such as the USA Network beginning in 1980, which relied heavily on broadcast reruns), whileothers took a specific programming niche (for example, Christian Broadcasting Network [CBNI, one of the first and most widely successful conservative religious/familyoriented cable services; MTV, the first 24-hour music video service, beginning in 1981; C-SPAN, CableSpecial Public Affairs Network,which, among other things, carried all proceedings from the Houseof Representatives and later the US.Senate on C-SPAN11, and The Weather Channel, starting in mid-1982). And, as discussed further on p. 540, Ted Turner's Cable News Network helped to change television journalism practiceand audience viewing habits-after 1980.
10.4 PublicBroadcasting(Still)SeeksItsPlace
517
By the late 1980s, the impact of cable was being feltat the broadcast networks, each of which had lost audience and income from the competition, and in homes across the country, where the notion of “network” now included dozens of satellite- and cable-delivered services. Oneindicator of cable’s increasing importance was growing concern over concentration among cable programmers and system operators.MSOs got larger,and independent system indication was the operators grew fewer (see Appendix C, Table 9-D). Another steady increase in space devoted to cable programlistings in TV Guide.
10.4 Public Broadcasting(Still) Seeks Its Place Public broadcasting both progressed and regressed in the years after 1977. This should come as no surprise. As noted on p. 426, interorganizational squabbles and questions of long-range funding pervaded the system in the mid-1970s-as they still did in the late 1980s. The problem was partially organizational politics, but underlying the malaise was a continued search for the right role-and an audience. Public television still lacked a cohesive sense of what itsmission should be. Even public radio, always more focused, had troubles in the 1980s. As one wag put it, if public broadcasting officials were armed and asked to form a firing squad, they would stand in a circle! One timely indicator of the problems was the report of a second Carnegie commission (Carnegie II). Those frustrated by many years of confusion centered their hopes on this effort, remembering the impact of the first commission a decade earlier (see p. 424). But times had changed. The second report, A Public 7h1st, issued in January 1979 after a year and a half of study, included a detailed accounting of what had been accomplished in public broadcasting’s first decade and described the continuing problems of inadequate long-range funding and of insulation of programming frompolitical pressures. Unfortunately, its call for substantially higher federal funding reached Congress in themidst of recession and belt-tightening. And its emphasis on a substantial restructuring of public broadcasting organizations-replacement of the Corporation for Public Broadcasting by a Public Telecommunications Trust-was largely ignored. Carnegie II was an interesting document, but it had nothing of the effect of the landmark first Carnegie report. 10.4.1 Politics As Usual
Ellllll
Carnegie 11’s relative lack of impact was duein part to entrenched factions in thevarious national organizations in public broadcasting. The battles of the 1970s involved hardened points of view, but the 1980s can be seen as one long and continuing struggle for both internal and external control of the Corporation for Public Broadcasting. This political infighting would be of mere parochial interest except that public broadcasting’s establishment was thus ill prepared to face the Reagan administration’s continued
518
Chapter 10 Challenge and Competition (1977-1988)
attempts in the 1980s to cutdrastically (if not eliminate) federal funding of station facilities building, and operation of CPB. Although the policy of distributing CPB funds to local stations rather than centralizing production ensured that PBS programming was unlikely to be as offensive to the White House as that of a truly independent publicbroadcasting system would be, control of the corporation would ensure that this situation would continue. The battle for control of the corporation centered on its 15-member board of directors, all appointed by the president. No matter who serves in the White House, CPB appointments are not a high priority, and thus the CPB board often was short of members. In addition, political appointees often have strong political views, which led to board battles over policies and personnel. For nearly a year in 1987, for example, the board considered a cona right-wing troversial content analysis of its own programming advocated by Reagan appointee. When the board finally decided against the research, the member lost interest and resigned. The sharpest disagreements came while Reagan appointee Sonia Landau served as chair (1984-1987). Wife of a New York 7 h e s television columnist, Landau clearly had a political assignmentto bring CPB to heel by increasing its corporate underwriting and reducing federal funding. Policy and personality disagreements led in 1985 to the firing of CPB president Edward Pfister and the most severe public break between local stations and theWashington powerstructure in some years.The CPB board then fired Pfister’ssuccessor after only 10 months. His successor, Donald Ledwig, becameCPB’s sixth president in late 1987. In the early 1980s, a financial crisis and scandal nearly ended National Public Radio. NPR had begun to seek means of self-support as funding from CPB seemed increasingly uncertain. Under Frank Mankiewicz, its president since 1977, NPR announced in 1982 an ambitious plan of further underwriting and sale of various services to allow total independence from the creaky federal funding process by 1988. The plans were too large and the base was too small-and by 1983 Mankiewicz was out and NPR was reeling from more than a $6 million deficit due topoor fiscal controls over expense accounts and expansive hiring practices. Congress investigated (some of the funds were federal), and things looked dark until CPB came through with a loan to allow operations to continue. For the first time, many individuals contributed to this national programming source in order to preserve their own listening choices. Nearly 100 employees were let go. The loan was paid back to CPB on schedule-but NPR lost some of its cherished independencefrom the political influences controlling CPB.
10.4.2
The Programming Dilemma
The audience knew littleof the behind-the-scenes agony over finance and control, for it rarely directly affected what was on the air. Radio, particularly, continued to carve out a small but important audienceinterested primarily
10.4 PublicBroadcasting(Still) Seeks Its Place
519
in news, public affairs, and the arts. Less than a third (about 280) of the more than 1,300 public radio stations (see Appendix C, Table 2-E)were “CPB qualified” and able to secure any of the dwindling pot of CPB funding. This meant also that only a small fraction of all public radio stations were carriers of NPR programming, with the remainder trying to attract local or specialized audiences, perhaps serving as a training ground for college or high school students of broadcasting or just indulging the preferences of whomever wasin charge of programming. But in almost every market of any size, at least one station carried National Public Radio. NPR’s Morning Edition transported the low-key news and features approach of All Things Considered to a morning drivetime audience beginning in 1979,and Weekend Edition had its debut in 1985.Major congressional hearings, such as the Iran-Contra investigation, and inquiries into thefitness of nominees to the Supreme Court, were carried live by NPR as a matter of record. The fiscal crisis had eased sufficiently early in 1987 that Performance Today was begun(to mixed reviews) on afive-day-a-week basis. In May 1980,Garrison Keillor’s A Prairie Home Companion was first offered by Minnesota Public Radio. The weekly two hours of Keillor’s creatively off-brand strain of humor quickly attracted a large (for public radio) and fanatically faithful late Saturday afternoon audience in most communities. The show typically was in three parts: an eclectic selection of musical performers (often folk or bluegrass), dramatic sketches, and a monologue about the doings in a mythical town called Lake Wobegon, Minnesota, with its strange yet familiar population of misfits, mixed with humorous “commercials” (for Powdermilk Biscuits, Bob’s Pretty Good Grocery, the KetchupMarketing Advisory Board, Bertha’s Kitty Boutique, The Side n a c k Tap, Hoo-Hah! Hot Sauce, and the like). Keillor, a talented fiction writer for The New Yorker magazine, each week softly delivered a lengthy monologue about what was happening in Lake Wobeof slightly larger-than-life gon and to its citizens (who reminded us reflections of people we knew). The program evoked a gamutof emotions in its audience, muchas the Vic and Sade network radio program hadin the 1930s and 1940s.The showwas carried livefrom an oldtheater in the Twin Cities, although it occasionally went on theroad and was simulcast on television a few times. The popularity of A Prairie Home Companion-more people may have listened to it than to any other public radio program-helped Minnesota Public Radio create a new national organization, American Public Radio (APR), in 1981. Keillor finally became tired of the punishing creative requirements of Companion (it hadbeen on the air in one form or another for 13 years), and production ceased in mid-1987.APR, meantime, had become a n important program distributor and provided an option to NPRs material by carrying MonitoRadio (produced by the Christian Science Monitor newspaper, which was also edging into commercial radio and television)
520
Chapter 10 Challenge and Competition (1977-1988)
and other programs. Thanks to the availability of a satellite system, other programming was distributednationally by stations with the funds to produce it, such as the jazz programming welcoming in the New Year from every time zone or Robert J. Lurtsema’s unique blend of music and commentary on Morning Pro Musica, which originated in New Englandbut had spread across the country, Most public radio stations, even those controlled by school boards, were carrying less classroom instructional (often under 2% by the mid1980s), a sad end to the high goals worked toward for decades by the National Association of Educational Broadcasters (which itself went outof existence by 1981). Public television also became less overtly instructional and more of a general appeal medium. Indeed, except for a little during school hours, most “educational” programming also appealed to a general audience. Among those programs that might be classified in this way were Sesame Street, NOVQ,numerous nature programs, and other specials and miniseries. (Of course, such programming also existed on commercial television, but the commercial stations and networks would never labelit “educational” for fearof audience turning off.) The first regularly scheduled national evening newscast on public TV was the Robert MaciVeil Report, starting in 1976 and expanded in 1983 as The MacNeilLehrer NewsHour, to become the country’s only nightly hourlong newscast-interview-documentary(the format depended on the topic), although ABC’s Nightline had similar content in a shorter time frame. Likewise, public television often seemed theonly congenial home for controversial documentaries. Frontline, which often used the products of independent documentary filmmakers or video producers, was the only regularly scheduled documentary program in the mid-1980s. Vietnam:A Television History offered 13 hour-long episodes produced in 1983 by Boston’s WGBH in association with British and French television companies to tell the entire story of the Vietnam wars from the 1940s to the 1970s. Because of the importance of television’s on-the-spot coverage of that war, which affected (and was in turn affected by) public opinion (see pp. 447-449), the series was in part a study of the video medium itself and raised considerable controversy. It was not as controversial, however, as a multipart idiosyncratic ~ s , raised the hackles of some view of black history titled The A ~ ~ c Qwhich Americans who objected to the left-wing approach of the program and demanded (andreceived) the opportunity to prepare a rebuttal. such as Sunday PBS viewers still wereattractedbyoldstaples evening’s Masterpiece Theatre, which continued to present British television dramas introduced by the urbane Alistair Cooke (and continued to make viewers wonder why Americantelevision could rarely do as well). A similar compilation of mostly British miniseries under thetitle of Mystery! did almost as well, extending the career of its host, one-time film horror star Vincent Price; Children’s Television Workshop’s Sesame Street was well
10.4 PublicBroadcasting (Still) Seeks Its Place
521
into educating its third generation when it celebrated two decades on the air in 1989;American Playhouse presented U.S. productions from a consortium of public television stations beginning in 1982; and there were many documentaries dealing with nature and adventure. A number of the miniseries featured on these programs-such as Jewel in the Crown, about India during World War I1 and its achievement of independence-attracted audiences of extraordinary loyalty. Weekly current events programs like Washington Weekin Review and Wall Street Week also had large and loyal audiences. One indicator of the identityproblem public television seemed tohave was the blurring of lines dividing commercial entertainment from public television programming. A few public stations, seeking broader audiences at lowest cost, began to provide reruns of former commercial fare. The airing of movies, once intended to expose the audienceto rare art films, started to concentrate on musicals and other popular fare-often to the annoyance of independent commercial broadcasters. In 1980,the critically acclaimed but low-rated Paper Chase series, which realistically portrayed law school students and practices (featuring veteran director-actor John Houseman as the senior professor) was rerun on public television after being canceled by CBS after only one season (1978-1979).(In 1983,the Showtime pay-cable service produced new episodes with muchof the oldcast, keeping the program alive for another year.) Similarly, National Geographic Specials and Smithsonian, among other series, often appeared on higher-paying commercial networks after their initial airing on PBS, carrying on a tradition ranging back to The Finder in the 1950s.Individuals also moved in both directions: Larry Grossman of PBS was president of NBC News for several years; movie critics Siskel and Ebert moved over to the better-paying commercial world; network newsmen Daniel Schorr and Roger Mudd moved from commercial to public television (which may have allowed more latitude, if less cash); and Bill Moyers went from PBS to CBS and back again in the 1980s as he sought an outlet for his documentaries and interviews that would allow him to say what hefelt needed to be said.
-
10.4.3 Financing:A Gordian Knot
The financial crisis-almost a normal state of affairs fornoncommercial radio and television stations-continued throughout the 1980s.Unfortunately, many felt that money itself was the chief problem, losing sight of the fact that disagreement on the basic mission (or at least on how best to accomplish that mission) contributed strongly to the continuing dearth of funds. Lack of any action on the second Carnegie commission’s recommendations (see pp. 517-518) laid the groundworkfor the first major congressionally supported review of funding options. In a 1981 funding bill, Congress established the Temporary Commission on Alternative Funding for Public
522
Chapter 10 Challenge and Competition(1977-1988)
Telecommunications (TCAF), made up of both public- and private-sector representatives, to study and experiment with options. TCAF operated through 1983 with support from the FCC and, under the authority of the 1981 act, conducted an 18-month experiment with overt advertising on IO public television stations (public radio chose not to participate), Following this experiment, TCAF recommended against advertising as an answer to publictelevision’s fiscal problems for fear that only major stations in large markets would receive sufficient revenue to justify added expense of sales staffs and higher union costs, and because acceptance of advertising and its implied search for largeraudiences might well undermine the whole rationale of PBS as an alternative to commercial broadcasting. Although public television has always trumpeted its “commercial-free” status, most programs-since they often are prepared without knowledge of whether they will appear on public or commercial television-tend to be of the same length. As a result, PBS stations typically have four or five minutes at the end of each program to fill with promosand other material. But it was clear to TCAF that thepowerful commercial broadcasting industry would not sit still for continued spectrum reservations and other special benefits for a system supported by advertising in competition with regular commercial stations. So, after assessing several ideas, TCAF concluded that a less-threatening system of “enhanced underwriting” or more extensive announcements at the beginning and endof each program by corporations providing support for the program (and hardly distinguishable from short commercials in some cases) would beof greatest value. The FCC subsequently modified its rulesand regulations to allow such anapproach. Still, enhanced underwriting, membership drives, and auctions were not enough, and public broadcasters trekked to Capitol Hill every year, seeking additional funding for the system. Budget pressures on Congress and the Reagan administration’s lack of support in the 1980s led to “recisions” of money previously allocated. This situation made a hash of advance program h a n c i a l commitments and other long-range planning-and effectively undid the whole rationale of three-year funding cycles. State contributions to public stations, once a major factor in overall funding levels, also declined under similar budgetary pressures. On the local level, stations had little choice but toundertake on-the-air auctions and “membership” pledge week “begathons” to increase viewers’ participation in financial support of “their” stations. While the $35450 basic membership category hardly paid for itself, since fund-raising is not cheap and a program guide had to be published and distributed, the stations felt that commitmentsof any amount wouldlead to larger audiences, a selling point for enhanced underwriting, and the opportunity to seek more contributions from members throughout the year. On the other hand, public stations that did on-the-air fund-raising knew that they often alienated much of their audience during the campaign, but saw noalternative in a time of reduced federal funding.
10.5 Advertising: Money
and Motives
523
10.5 Advertising: Money andMotives IIwa*IR
Outside of public broadcasting, advertising revenues remained the lubricant of the electronic media and one reason for the merger mania noted earlier (see pp. 500-501). While network television continued to be the country’s prime national mass advertising medium during this period, changes in the old order clearly were in sight as early as the 1970s. 10.5.1 Broadcast Advertising:A Continuing Relationship
More than a few industry experts in the late 1970s were questioning how long a mass advertising-supported system of broadcasting could last amidst the growing number of delivery options and increasing specialization of content that then was just beginning to divide theaudience. More than half a century of experience in reaching large, heterogeneous listening audiences seemed to be in jeopardy. Yet, 10 years later, broadcasting’s majoradvertisers still were largely loyal to the nationaltelevision networks, though they experimented widely with other options. The declining rate of growth in radio and television advertising revenues (see Appendix C, Tables 3-A, 3-C) was due to changes in listening and viewing and to a slower-growing audience divided among more and more different services, as discussed further on pp. 550-556. For the first time, a substantial number of American homes had other ways to get electronic entertainment, chiefly videocassettes (often carrying promos for other films, if not actual advertising messages) and cable (a competitor for advertising itself). The growing number of independent stations also cut into thenetworks’ revenues. In part, the ever-higher costs of television time and production lost it some advertisers. Newspapers still were the medium of choice for local retail and classified advertising, and other media, such as direct mail, grew in sophistication. Still, through the 1980s, broadcasting remained an immensely successful advertising medium. Theyears after 1977 saw FM radio slowly develop into an important advertising medium for the first time in its varied history. AM’s audience decline (see p. 552) translated in the mid-1980s into a parallel decline in its importance to advertisers. While the number of advertiser dollars put intoany form of radio nearly tripled from 1970 to 1980 and almost doubled again during thefirst seven years of the 1980s, most of this was apparentrather than real, as a result of the monetary inflation of the period, and was matchedby other media. (Between 1970 and 1985, television advertising revenues grew fivefold, as compared with radio’s nearly fourfold increase and newspapers’ better than threefold rise-though inflation accounted for morethan half of these increases.) For both radio and television, local advertising revenues grew substantially faster than national “spot” advertising during this period, while network revenues climbed
524
Chapter 10 Challenge and Competition (1977-1988)
proportionately faster for radio than for television. During these 15 years, radio advertising constituted approximately 7% of all advertising, while television advertising’s share grew from 18 to 22%. Several threats to broadcast advertising arose in this period but disappeared without impinging on broadcasters’ incomes. Early in the 1980s, bills were introduced in Congress to eliminate all advertising of wine and beer on television. (“Hard” liquor advertising always had been voluntarily refused by the industry as a public relations gesture.) Advertising of legal over-the-counter drugs also was questioned in mid-decade, with critics arguing that children seeing any pill-taking as acceptable might translate that image to the use of illicit drugs. Although the analogy of the law eliminating cigarette advertising in 1971 was raised, none of these limitations became law, in part because of effective lobbying by the wine, beer, drug, and broadcasting industries. More fractious was the debate over advertising in children’s programming. As a part of its radio deregulation decision (see pp. 566-567),the FCC removed its limitson the amount of advertising time allowed in programs aimed at children. Action for Children’s Television and other groups petitioned the commission and courts for reinstatement of those guidelines. In 1988,Congress passed, but President Reagan vetoed, guidelines similar to those dropped by thecommission. Concerns over so-called program length commercials (often cartoon shows with close tie-ins with commercial products) and selling by hosts of children’s programs continued to trouble many critics. Indeed, it had troubled some broadcasters, as was evidenced in the advertising guidelines found in the now-abandoned (see p. 561) National Association of Broadcasters’ code. Often raised and always successfully beaten back were attempts by various states to tax advertising receipts, including, of course, radio and television (and cable) advertising revenues. In 1987,Florida’s governorpushed through legislation to tax services, including advertising. Soon national advertisers were pulling their campaigns off Florida stations to avoid tax hassles-and moving trade association meetings from Florida to drive home the point. Pressure from those stations, other services affected, and Florida’s tourism industry got the lawrescinded in 1988. 10.5.2 New Media, Limited Appeal
As cable penetrated half of all homes in the country, glowing talk of the wired medium as a mass advertising vehicle was heard again. Cable’s potential as an ad medium hadbeen touted for years, but for several reasons the potential hadnever become practice. Cable’s verysuccess in providing more channels for its audiencewas at the core of the problem, for each new channel further divided the audience, making it harder to sell any one
10.5 Advertising:MoneyandMotives
525
channel or program to a given advertiser. Individual cable networks often rose and fell on the results of their selling sufficient advertising time to cover costs. Cable systems’ main revenue source had always been subscribers’ fees, making the need for advertising secondary. While radio and television combined carried more than a quarter of all advertising in the country by the mid-l980s, cable television accounted for less than 1%. However, some analysts expected the networks’ proportion of television advertising to continue to decline (from roughly half) while cable’s might rise to nearly 5%, with most of the network loss flowing to local stations and syndicated programming rather than cable. Not quite advertising in the accepted sense, but certainly a way of moving products, was the cable home-shopping craze of the mid-1980s. The notion of direct selling over the air was not new-it dated back at least a half century to early radio practice, and numerous products had been sold on a“per-inquiry” basis ( w i t h a commission going to the station). Also similar have been pitches for “greatest hits” records and tapes. In 1977, an AM station in Clearwater, Florida, offered home listeners a chance to call in directly and order products described on the air, and moved the concept to the local cable system in 1982. In July 1985, as the Home Shopping Network, it began national satellite distribution to cable systems across the country, offering system operators a small portion of the income received from their coverage area as an encouragement to carry the signal. A changing cast of hosts offered dozens of products during the course of a day at what were touted as deep discount prices, while cameras lovingly portrayed the item of the moment and constantly displayed atoll-free “800” number for viewers to use in placing their orders. In March 1986, a second HSN channel came on line to meet viewer demand. Other shopping services soon crowded on the air, some on cable and some on localUHF stations desperate for programming and revenue. Some of these stations eventually werepurchased by one of the shopping networks. The process was the samein each case-products being shown constantly and huge batteries of telephone operators standing by to take orders andcreditcardnumbers. Programming and advertising had merged to becomeone and thesame. Of the many other television delivery options offered in the 1980s, none except cable was large enough togarner much advertiser interest, although once in a while an advertiser would make videotapes of popular movies available at a drastic price reduction in order to be able to use the first few minutes of the tapefor a commercial. Home VCRs actually were a threat to television advertisers because of the viewers’ habit of “zipping” ahead through prerecorded ads, or else “zapping” (notrecording) them in the first place. Surveys showed that a substantial proportion of those who recorded programs off the air generally skipped over the accompanying advertisements.
526
Chapter 10 Challenge and Competition (1977-1988)
A television viewer at the endof the 1980s saw programming not much different from that aired a decade or two earlier. There was more use of computer graphics and somewhat more attention paid to sound quality, but most programming was still unpretentious entertainment. Some more attention was paid to “reality” (often defined as-or at least with-sex and violence), and there was a frantic search for successful formats to imitate. Poorly rated shows tended to leave the networks much faster by the late 1980s than a decade earlier-both because of better research and because of the risk involved in keeping an expensive show on the air. Radio formats tended to be aimed at those who liked either popular rock music or telephone-in talk, with hardly discernible differences between stations. 10.6.1 Radio’s Survival
R11
Radio programming changed remarkably little in the 1977-1988 period. Virtually no popular newformat was developed. AM and FM stations continued to fragment the existing music andtalk formats in search of specific audience niches as more stations crowded theairwaves. A “nostalgia” format appealed to more stations by the 1980s, but then there was more “golden oldie” rock music on whichto base such an approach. Further, radio’s audience was slowly aging and carrying its radio format preferences with it. More stations on the air simply meant that each station had a smaller piece of the pie-and seeking and holding that segment became both harder and more important. The most important radio shift was the decline ofAM in the face of FM. As indicated on pp. 454 and 501, almost all new portable or automobile radios were AM-FM, and, with free choice, the audience tended to gravitate toward the better-sounding medium. In 1976, FM had about 40% of the audience and perhaps half that proportion of total radio income. A decade later, FM’s audience and revenue shares both hovered at 70%. Crucial to the switch had been the FCC’s nonduplication programming decisions of the mid-1960s (see p. 433), which forced FM stations to develop their own sound, which in turnattracted about half the national radio audience to FM stations by 1980. In the early 1980s, country, adult contemporary, Top 40 (usually called “contemporary hit radio” or CHR), album-oriented rock (AOR), and the oldmiddle-of-the-road (MOR) format (combining talk, features, and some music)were the leaders, with country music being the single most common radio format. These same formats were strong at decade’s end. Withmajor markets often having 30 to 50 stations competing for listeners, focusing on specific demographic groups became more common. Some stations went for smaller audiences concentrated in demographic categories appealing to advertisers, such as men
10.6
Programming
527
and women in the 18-45 age category or even women 18-35, rather than teens with less money to spend. AM stations, to survive, looked to more specialized formats, including all-news, talk, and sports (all programs not helped by FM’s better sound quality) and also specifically focused on ethnicminorities. All-talk stations, which featured telephone-in programs hosted by opinionated and controversial figures, attracted appreciable audiences. Several of these individuals, including Morton Downey, Jr., moved on to television. A few major market AM outlets struggled to survive with MOR formats not muchdifferent from radio three and four decades earlier. In small markets, of course, the limited number of outlets gave any radio station substantial flexibility in choosing its format. The traditional mix of news, personality, features, and some music hadstrong appeal, especially among older listeners. Likewise, especially in the South andMidwest, religious stations programming a mixture of conservative talk and features plus religious music and sermons (withmonetary appeals) held a loyal audience.
-
10.6.2 Rising Risksin Television Programming
The arrival of VCRs and cable in a majority of homes by the late1980s made those new media more importantto the actors, writers, other creative people, and technicians who make television programs. The same was true with foreign rights to Americanprograms as more countries found it popular and profitable to show American material. In 1981, and again in 1988, the start of the fall television season was delayed by strikes. The 1981 delay was caused by a July-September strike by the Screen Actor’s Guild and the American Federation of Television and Radio Artists, who wanted more residual income from use of their programs on new media. This lack of a strong start contributed to a drop-off in network viewing levels for the entire season. The 22-week 1988 strike, which lasted until mid-August, saw the writers of television programs strike over similar issues plus a larger part of income from overseas sales. The new season was delayed into November, and fears were expressed again about pushing viewers tired of reruns to other services. While the “summer”(actually, September) Olympic Games and the presidential election campaign somewhat camouflaged the effect of the strike, the networks justifiably feared the potential for longterm negative effects. In the short term, of course, the strike concerned those striking and thecompanies struck (and the many ancillary industries, from restaurants to accountants, that depended largely on television production). Nevertheless, the strikes were an indicator of the growing recognition by others besides those in the executive suites of the changing economics of television programming. The chief change was the ever-higher cost of making television shows. Program costs climbed, due in part to inflation and in part to improved
528
Chapter 10 Challenge and Competition (1977-1988)
production values (computer animation; location costs; a willingness to pay almost anything to hire actors who were “bankable,” or so popular that they could command a large audience no matter what the program; and so on). A typical one-hour prime time drama that would have cost about $100,000 to produce in 1965 was up to about $300,000 a decade later, and to about $900,000 by the late 1980s, in spite of such cost-cutting practices as making programs in less-expensive Canada or using nonunion crews to the extent possible. As the cost of production rose, so did therisks attendant in making programs fortelevision. Networks balked at paying more for their license to show aprogram (usually twice, before all rights reverted back to the program owner) so that, by the late 1970s, network payments covered only 9O%-at best-of theper-episode cost of production. The production company was thus taking at least a temporary loss and thevery real risk that the network would not renew the program for additional seasons, which would mean there would notbe enough episodes (100 was the ideal number, but scheduling fewer first-run episodes made difference a in later years) to make the series attractive for eventual syndication. By the late 1980s, successful syndication (domestic and often foreign) was required for a program merely to break even, let aloneto make a profit. Until the 1970s, syndication nearly always provided profit over and above income from the network, which usually paid allactual production costs. There was little “first-run” (made for syndication) material. Passage of the Prime Time Access Rule (see pp. 418-419), theestablishment of nearly 300 independent television stations by the late 1980s (see pp. 502-503), plus the increasing interest in recent (and even older) programming by basic cable networks changed that. In 1980-1981, 25 first-run syndicated shows aired at thestart of the season. By 1986-1987, that number had jumpedto 96. New companies developed to meet the demand, but there were problems as well. All production costs were up sharply, increasing the risk of program making and buying. Syndication’s image was of a steady dietof game shows and interview Vanna White turnprograms. Indeed, Wheel ofFortune(with the handsome ing the letters) andJeopardywere the top-rated syndicated showsof the late 1980s, followed closely by the Oprah Winfrey and Phil Donahue daytime interview shows, Merv Griffin having gone into big-time real estate. The cost of both formats was only a fraction of that of dramatic or variety programming. In 1988, Wheel cost about $8 million a year to make-but this daily program earned some $100 million! To secure the rights for sufficient programming, many networks and producers went to measures that might not have been attempted in the past. International coproductions, involving money from one or more countries and creative talent from others, became common. WGBH (PBS) no longer had a monopoly of the many programs produced in England, with both good and bad programming going to the highest bidder (or the coproducer), An entrepreneur like Ted Turner might go so far as to purchase the films of
10.6 Programming
529
an entire major Hollywood studio in order to be able to feed the alwaysdemanding channels thathe programmed. HBO frequently produced major programs with its own money, and consortia of stations or other cable program services did the same, although less often. Indeed, the expectations engendered by pro-cable publicity in the 1960s and 1970s, which held out hope that cable would become a source of tremendous amounts of higherquality programming than thecommercial broadcast networks, appeared to be ill founded. 10.6.3 Television Entertainment: Imitationand Evolution
In the late1980s, prime time television remained a search for ratings success amidst slight variations of previously successful shows or stars. There was little thatwas new or different, for the risks in taking such a path were too great considering the costs of production, let alone the pressures of competing cable and VCR offerings. Of course, once in a while (as with Hill Street Blues) a new program so intrigued the audience (and other producers) thatit was quickly imitated-but the process of innovation itself never really caught on. During other parts of the day, there was even less change. Soap operas and interview shows occupiedmost of the day, with morning programs such as the Today show and Good Morning, America starting off and NBC’s Johnny Carson celebrity and variety show (andABC’s Nightline) serving as a nightcap after the localstation’s 11o’clock news. Although formulas remained thesame, some genres changed more than others. Science fiction became less common, although fans of the longrunning-it went through at least four actors in the title role-British import Dr. Who on PBS were a force to be reckoned with. In 1987 Star 7kek: The NextGeneration was aired (still withoutseat belts in thecontrol room), and ALF began in 1986 on NBC. The latter could be considered either a throwback to earlier animal-centered comedy series featuring a “typical” television family or science fiction, since ALF was an “alienlife form” from outer space with a smart-aleck mouth and a taste for cats (to eat). Paralleling the fate of feature films on the home screen, thewestern had almost disappeared from television, though the mini-series Lonesome Dove achieved very high ratings for CBS early in 1989. 10.6.3.1 Network Jockeying .. .
In the mid-1970s, ABC briefly was the highest-rated network, thanks to the programming success of Fred Silverman (see p. 511). CBS moved back into its accustomed top spot in the 1979-1980 season. And then, in 1986, for the first time in television history, NBC nudged into top position and CBS slipped to third-a reversal of three decades’ pattern. Later still, ABC slipped back down the mountain.No longer could a network plan a season’s
530
Chapter 10 Challengeand Competition (1977-1988)
programs and thenstick with themfor several months to see if the audience would start to grow, as had happenedoften in the past. Now, if a program did not do well in the “overnight” weekly ratings, it was cutat once without compunction, since the advertisers could read the ratings just as easily as the networks. Each programnot only had to build itsown audience but had to deliver an audience to the programs that followed it later in theevening. As before, all three networks would trot out specialprograms, typically made-for-television movies and mini-series,duringthethreeratings “sweep weeks” each year to try and bolster their image and ranking. To some extent, thisoccasional break with the regular pattern of weekly series added to the debate over whether to provide programming people merely watch or that which they watch and talk about. While conventional wisdom has it that few series (let alone most individualepisodes) stay in viewers’ minds, it was believed that specials-and the commercial spots they contain-often do. Networks were thus also able to capitalize on popular topics, stars, movies, or books without committing themselves to a full season’s series (see also pp. 518-522). In early 1983, for example, ABC offered 16 hours of The Winds of War (based on the popular Herman Wouk novel of World War 11 and featuring veteran movie actor Robert Mitchum in his first television role) and The Thorn Birds for nine hours (largely set in the Australian outback and exploring the pressures on an ambitious priest who falls in love). Both were highly successful audience-grabbers. Indeed, ABC came back with a Winds sequel (War and Remembrance) five years laterthat ran even longer (18 hours in November 1988 and 1 2 more early in 1989-said to be the most expensive program ever made for television up to that time, at a cost of over $100 million!). ABC found, however, that the program had marginal audience appeal, which made itlikely that it would be the lastminiseries this expensive. Also popular were “docudrama” specials, which retold history with abit of license: biographies of John F. and Robert Kennedy and Lyndon Johnson; recreations of the life and work of Sam Houston and George Washington; refighting of various portions of the Civil War;famous recent murder cases; and visits back to the times of Napoleon, Peter the Great, and Columbus. A tendencyto recycle became evidentin the late 1980s, as “reunion” or “what do they look like now” specials featuring the original casts of frothy programs such as Leave it to Beaver and Gilligan’s Island were presented to a nostalgic audience. Some specials had substantial impact. Building on ABC’s 1977 success with Roots (see p. 436), NBC offered a four-night dramatization of the life and death of the Jewish families during World War I1 in Holocaust, creating substantial controversy and widespreadinterest here and overseas (the series was eventually shown in West Germany,raising even more controversy in that country). Several programs dealing with the aftermath of a nuclear generated strong reactions. More than half war (Testament, The Day After) the country’s adult population tuned in to The Day After, a several-hour
10.6 Programming
531
view of a family in Lawrence, Kansas, after a nuclear exchange. Antiwar groups found that theprogram reinforced their message; “hawkish” groups claimed it was antidefense propaganda; all viewers found theimages horrible and long lasting. Another form of special reverted to former days of television music and variety, for a good cause. In July 1985,top music groups and individuals appeared free on a 17-hour marathon concert televised from London and Philadelphia to raise money for starving people in Africa. Dubbed Live Aid, some $75 million was raised in this series of musical acts seen by millions. The showused 14 satellites and was seen in 110 countries live (and in another 40 on tape). In later months, similar though less ambitious domestic versions sought to raise money for relief for economically distressed and weather-battered American farmers and other causes. 10.6.3.2 New Dramatic Techniques
Not all serious television programs were specials. Hill Street Blues, which began as a mid-season replacement in January 1981on M C ,focused on the members of a police station in a depressed area in a large city. The characters were realistic, and so was the constant pressure of dealing with societal dregs and getting on withlife. The viewer saw humor, pathos, and violence as he or she followed fully formed characters in a semi-serial fashion from week to week. Each episode took place in a single day, from the early morning roll call to late evening, with rapid cutting between multiple story lines and a cast of more than a dozen principals to keep track of. Hill Street Blues characters appeared as real (if somewhat larger than life) people, and it seemedappropriate to allow the linebetween the real (and ultimately fatal) health problems of the actor playing the precinct sergeant and the health of the fictional character to become fuzzy.The black humor of the fictional conditions of death of “Sergeant Esterhaus” became a posthumous tribute to the actor who portrayed him. Another dramatic series that sometimes covered important topics but didn’t take itself too seriously was St. Elsewhere. On NBC from 1982 to 1988, the program first took a realistic warts-and-all approach to life and death in a struggling urban teaching hospital, where more seemed to go wrong than right and where not all days were good ones. The title came from the mythical “St. Eligius Hospital” in Boston’s slums, to which all sorts of people came for treatment-including the real Governor Dukakis of(sprained ankle from jogging). Aswith Hill Street Blues,the comedy was ten submerged in the trauma of trying to cope, interpersonal relationships could resemble a soap opera’s, and the many intertwining plot lines and cast members were not easy to sort out. Toward the end of its r u n , some of St. Elsewhere’s programs dealt with unlikely events such as an out-of-body experience and a husband andwife
532
Chapter 10 Challenge and Competition(1977-1988)
ex-CIA team (Steve Allen and his wife, Jayne Meadows) whocould disappear at will. A final program (which received a “jeer” from TV Guide) indicated that the entireseries existed merely in the imagination of an autistic child who was a minor character. St. Elsewhere had a penchant for “in” jokes, in which actors would be addressed by the nameof a character they played in some other program, and one episode contained a brief, unheralded scene in which almost the entire cast of the old Steve Allen show briefly gathered around a piano. A similarly constructed program from the same production house dealing with a minor league baseball club, ran out (MTM), Bay City Blues, of story lines and audience early in its first year,but L.A. Law, which started in 1986,proved to be the same sort of success as Hill Street Blues and St. Elsewhere, appealing to a very large and loyal audience with its combination of good writing, action, tragicomic drama, and fine acting. Its multiple story lines told of the professional and private lives of associates and partners in a Los Angeles general practice law firm. A realistic (on the whole, greed outbalanced altruism) approach to the pressures of the job, combined with stereotyping of characters (the fatherly senior partner, the grasping managing partner, the philandering divorce lawyer, the sharp and ambitious women, black and Hispanic associates in the firm, and even the mentally retarded messenger) rapidly built theprogram to top ratings. Many of these programs were created by Steven Bochco and produced under MTM (Mary Tyler Moore)Productions’ auspices. The head of MTM when Hill Street Blueswas first produced was Grant Tinker,ex-husband of Mary Tyler Moore,who went onto be president of NBC until shortlyafter it was sold to GE (see p. 511). The differences between these programs and conventional ones were subtle. Whereas a Barney Miller or a Night Court brought a couple of intersecting and predictable plots to a location (few of these programs had more than a couple of sets) populated by permanent members of the cast, a Hill Street Blues or L.A. Law took the cast out into the streets or to other locations and let them interact with a large group of other actors and a large number of unpredictable parallel plots, few of which would be tidily resolved by the end of the program.
-
10.6.3.3 Tie Unusual.
..
The 1980s saw someof the lastbarricades against sensitive topics crumble. Homosexuality and even A I D S frequently were the subjects of story lines, as were drug abuse, the posttraumatic stress disorder affecting Vietnamveterans, child abuse, alcoholism, and other problems. The Vietnam War finally arrived on the same screen in programs such as Tour of Duty and China Beach. GoldenGirls, starting in the Fall of 1985,showed with good
10.6 Programming
533
humor one of the mostoverlooked minorities in America as itfollowed the lives of four clearly over-50 (or -60) single women living in Miami and still seeking men and/orhappiness. Themixture of personalities and situations was a rare case of television not focusing exclusively on youth andbeauty, and we laughed with, not at, the Golden Girls. There seemed to be a new “problem” theme or two each year that appeared in some guisein almost everyseries. Some of this was due to the typical “copycat” approach to developing new program series, but some also was due to low-key efforts by the federal government to sensitize the creative forces of television to what Washington thought was the problem of the year. Sometimes the creative heads of studios, networks, and production houses were brought to the White House to receive a briefing-and then wentback to their typewriters (or, more likely, word processors) to prepare and produce
The Vietnam War as Television Drama The 1972-1983 CBS hit M*A*S*H, set during the Korean War (1950-1953),helped make wartime comedy/drama popular. In 1988 network television ventured into the far more controversial watersof the Vietnam War with China Beachon ABC and Tour of Duty on CBS. China Beachstories centered on the women (nurses, entertainers, enlisted personnel, and their commanding officer) and the men they work and live with at a military rest and recreation center and base hospital in 1968,the peak year of American fighting in Vietnam. Unlike mostof M*A*S*H, China Beach was serious dramain an hour-long format. But like the earlier program, Beach and Tour focused on thevarious personal impactsof a far-off and unpopularwar.
U
1
Photo credit: Photofest.
534
Chapter 10 Challenge and Competition’(1977-1988)
scripts giving their own slant on the matter. While the effect of this strategy usually was benign, some were concerned that it might lead to having television present only one approach to political, as well as medical or social pathological, matters, which in the future might allow an unscrupulous government and an unwary television industry to brainwash the public. which had begun on A stand-out “conventional” series was M*A*S *H, CBS in 1972 and lasted for 11 years. Itscombination of humor and empathy set against the activities of an army medical unit in Korea during the early 1950s’war builton an antiwar ethicgrowing out of the frustrating Vietnam War. The humane and antimilitary messages of Gene Reynolds and Larry Gelbart (producers and writers) and Alan Alda (the principal actor, who moved into directing) were positive and aroused resentment only among brass hats and stuffed shirts. While most regular comedies used a laugh track, it was noteworthy that M*A*S*H’s laugh track was never used in the operating room scenes. Alda’s character of Hawkeye Pierce was the essential glue that kept things together, surrounded by the psychiatric-discharge-
Cosby-Comedy Success BillCosby,asNew York obstetrician Dr. Cliff Huxtable, applied gentle common sense in the raising of his son and daughters. He is joys of parenthood-for shown here with twoof his “children.” Showing the trials and which Cosby always had just the right response-The Cosby Show first aired in the Fall of 1984 and helped propelNBC to ratings leadershipfor the first time in history.
m
m
1! i
4
Photo credit: Photofest.
1
10.6
Programming
535
seeking Corporal Klinger in nylons, thenaive yet shrewd Corporal “Radar” O’Reilly,and the professional and sexy chiefnurse Major “Hot Lips” Houlihan. Over the years, the program survived many cast changes: new M.D sidekicks for Hawkeye; a new commanding officer in the form of commonsensical Colonel Sherman Potter (played by Dragnet veteran Harry Morgan) to replace the somewhat fey reservist Lieutenant Colonel Blake [played by McLean Stevenson); and the switch from one broadly buffoonish foil to a more urbane one. Some of the programs were unique: in one, the entire half-hour was shot in black-and-white as a television documentary might have looked in the1950s, with theactors ad-libbing in character. In another, three generations of the Alda family were featured, and in one episodethe camera showed only what an injured soldier would have seen. Some episodesweredownrightsadandinsightfulratherthan funny. The two-and-a-half-hour final episode of M*A*S*H, telecast on February 28, 1983, was the most-watched television show in history, with a 60.3 rating that hour! Naturally, and a 77 share of thosewatchingtelevisionat M*A *S*H continued in syndicated reruns. Another ground-breaking situation comedy started in the Fall of 1984 when Bill Cosby returned to prime timeas a New York doctor married to an attorney. The relationships between the couple and their five children remind one of Father Knows Best, but this family happened to be black. The Cosby Show quickly helped carry NBC to the topof the ratings heap asBill Cosby’s impeccable timing (honed by many years as a stand-up comic), recognizable family situations, and supporting cast maintained a broad appeal. Other “family” sitcoms tended to appeal to one demographic group or another-but Cosby was universal (see facing page). 10.6.3.4 h
...and the More Usual
More typical television drama built around people (as opposed to situations or action-adventure) thrived in these years. The crusty but credible Lou Grant character (played by Ed Asner) went from being a television news director onthe old Mary vier Moore Show to an editor onthe mythical Los Angeles Tribune newspaper on the Lou Grant program, which ran on CBS from 1977 to 1982. Its opening titles were notable in the first season for providing a half-minute music-and-film documentary montage on how newspapers are made-and end up as the absorbent lining for a bird cage! Both programs provided dramatic backgrounds for presenting the ethical problems of journalism. A decade later, the yuppie generation became the focus of ABC’s thirtysomething, which combined humor and drama in an hour-long slice of life of young married professionals coping with new child, new job, or new home. Each week, the program offered more insight than situations in the accepted comedy sense, although those viewing over a generational gap might find trivial some of the problems
536
Chapter 10 Challenge and Competition(1977-1988)
faced by thecast. The DQYSand Nights ofMollyDodd appealed to manyof the samecritics and audience members,but not enoughto find it a permanent network slot. “Evening soap opera” was one term describing CBS’s Dallas, which first aired in the spring of 1978 as a made-for-television film and began series telecasts that fall. It seemed that everyone was following the nefarious affairs (literal and figurative) of J.R. Ewing, Jr.,played with a wonderful sense of evil by Larry Hagman. A huge audience was hookedby the last episode of the 1979-1980 season when J, R. was shot-and all Summer, fans of the show had to await the new episodes in the Fall to answer the question “Who shot J. R.?” Nearly 80% of all those watching television that night saw theNovember 21,1980,program which answered the question. Beginning in 1981,CBS followed up with Falcon Crest, starring veteran actress Jane Wyman as the domineering matriarch of a California vineyard. Crest built itssuccess on the samemanipulative types of characters and stories as Dallas. Over on ABC, beginning in January 1981,John Forsythe played Blake Carrington on Dynasty, the story of still another greedy big-money (oil) family, this time set in the Denver area. Much of the program built around the rivalry of Carrington’s gorgeous past (Joan Collins) and present (Linda Evans) wives, all set against the glamour of luxurious settings and costumes and devious plots. Other programs, such as Knots Landing, reached a similar audience. All of these programs also were popular abroad and were extremely profitable. Of course, daytime soap operas also retained their popularity (and their low productioncosts), moving further and further into story lines that featured explicit sex. A remarkably broad range of viewers, from collegestudents to army trainees to retirees, were devoted to soap operas and hadto get their “fix”each day. Even without thedeeper insights into the human condition provided by programs focusing on the individual rather than the situation, the actionadventure drama category, another longtime television staple format, continued to drawaudiences in the 1980s. Somedrama labeled actionadventure also focused on fantasy. Charlie’s Angels professed to be about three female investigators working for a heard but never seen boss (played by John Forsythe when he wasnot on Dynasty). In fact, it was a vehicle for fast action and beautiful women during its ABC run (1976-1981)and was often criticized for its possibly sexist exploitation of “the girls” as they constantly hid their detective roles within anundercover disguise (which often hid little else). FantasyIsland also ran onABC, from 1978 to 1984,building each l-hour episode around thearrival of new guests at a mysterious resort island wherea lifelong dream could come true. As the series went from season to season, the plots seemed ever more unlikely. A n y setting could be home to programs of different types. The world of law hadPaper Chase (law school), L.A. Law, and Night Court (a funny and sometimes vulgar comedy). Medicine had programs ranging from comedy to the macabre. The military, big business, police forces, college,and almost
10.6 Programming
537
any other professional setting could house a television program of some sort. About the only rare subject was the kind of daily work done by most Americans from nine to five. True, Flo was a waitress in Mel’s Diner, “Ski” worked for a brief time in a steel mill, Taxi’s drivers seemed to do some work, and Jackie Gleason achieved fame as a bus driver. Yet the life of the “working stiff” was rarely portrayed on television. One program that may be thought of as a n exception was Cheers, which was set in a Boston neighborhood bar. This program, which ranon NBC from 1982 to 1989, grew steadily in popularity for several of these years. Plots were subordinated to character, and audiences felt that they knew a real Sam Malone (ajock-former baseball player-who owned thebar and hada large ego about his attractiveness to the opposite sex and not too many brains); Diane (a mousy blonde know-it-all who seemed his direct opposite and with whom he fought forthe first years of the show); barflies Cliff (a postman who knew nothing) and Norm (an overweight, henpecked accountant); and sharpvoiced waitress Carla. When the actor playing “Coach,”the bartender, died, the audience at home grieved with the cast on the screen. On programs such as Cheers,the “chemistry” or relationship between the male and female leads was extremely important. When the lead characters on Moonlighting consummated a hitherto uncertain relationship, ratings dropped. Conventional situation comedy clearly remained a prime time staple throughout these years, as it had been for decades. And the overall format varied little-half an hour, usually with a laugh track and a regular cast. Some programs were superficially like others in terms of setting, but there was a big difference between the unconventional Hill Street Blues and the conventional Barney Miller. This is not to deprecate Barney Miller, which was a literate and low-key half-hour ABC sitcom from 1975 to 1982. Although it too followed big-city cops in the station house, it was a comedy (with someserious moments) thatlooked to the past for its production values rather than to the future. Even more traditional were programs like Love Boat. In 1976, ABC ran several two-hour specials about life and love on a cruise ship. There was enough audience-pleasing fantasy and light romance in the twoor three independent short stories in each “cruise” that ABC decided to commission Aaron Spelling to bring the ideaback as a series in the Fall of 1977. The program ran into the mid-l980s,benefiting ABC and the Princess cruise ship Love Boat filming line, whichalways sold out when it could announce that would take place on a particular voyage. Actors portraying the ship’s crew provided continuity, while guest stars (who got a free tropical cruise as well as pay) appeared in the vignettes, which were all based on some aspect of the love story formula. Over the years, the networks have presented programs that purportedto show (humorously) what goes on in the broadcasting industry. Feature and made-for-television films like Network, Broadcast News, Special Bulletin (another nuclear disaster drama), and 11 o’Clock News took care of the
538
Chapter 10 Challenge and Competition (1977-1988)
serious end. Even radio programs fromthe 1940s like the Jack Benny Show used this approach, as did television programs like the Mary vier Moore Show and Good Morning Beantown. One of the zaniest of the genre was CBS’s 1978-1982 WKRP in Cincinnati. This radio station’s flashy sales director, zonked-out jazz DJ and hip black DJ, takes-himself-too-seriously news director, sexy front office secretary with brains, slightly confused general manager, and “normal” program director made up thecast. 10.6.3.5
Among the Missing
What was missing from television in the 1980s? Reviewing popular network programs of past decades, you find few or no variety programs in prime time after the late 1970s. Likewise, despite several attempts to revive the genre, the “adultwestern” remained a stapleof the distantpast, finding little audience interestin the 1980s. Music wasmainly a matter of themes and background-even popular singers like Dolly Parton could not make a go of prime time television. On the other hand, old programming (even in black-and-white) had newlife on cable and independentstations, and those wanting pop musiccould always listen to radio or watch MTV on cable. 10.6.4 More News at AU Times
Television news becameboth more available and more watched by the late 1980s-but not always on thenetworks. Local stations had realized with a vengeance the desirability of having the reputationof being “first”’in news, and cable services like Cable News Network (CNN) and Cable Special Public Affairs Network (C-SPAN) cut into network news audiences. PBS, with its MacNeil/Lehrer NewsHour, became a player. Overall, television news now showedit could attract audiences and thus advertisers and revenues. In theearly 1960s, network news programs were 15 minutes long (on weekdays only),and local stations typically provided no more than a halfhour divided into news, sports, and weather. By the late 1970s, network news was half an hour long (often with a 15-minute program on Sunday night), and most stationsprovided half an hour or possibly an hour of local news. Cable originated nothing. But 10 years later, the situation had radically changed. The networks supplied short news breaks throughout the day in addition to their flagship news programs in the early evening and the soft features and news of the Today show and its competition often took over the agenda-setting role previously held by daily newspapers. A large number of people (including manynewsmakers, who previously had gotten into thehabit of watching the networks’ weekly news interview programs, such as the long-running Meet the Press) tuned in at 11:30 P.M. to watch ABC’s Nightline; and local television stations might present news programs in the early morning, at noon, wrapped around the network news in the
10.6 Programming
539
early evening for a total of as many as two hours, and at the end of the network entertainment schedule at night. “News junkies” who were still unsatiated could listen to all-news radio in many markets, view one of CNN’s two channels, find numerous radio outlets that aired sportsor financial news all day, and even buy a special radio receiver to obtain U.S. Weather Service forecasts directly without having to wait for them on The Weather Channel on cable. To some extent, the increase in amount of news was based on expanding technological options. As noted on p. 498, bythe 1980s most television stations had converted from use of news film (which, whileless expensive at first, required developing and could not be reused) to videotape, usually gathered by mobile or even portable video units collectively labeled as electronic news-gathering equipment (ENG). Livetelecasts could be made from remote sites so long as the signal could be microwaved back to the station. If it was notnecessary to have the signal live, it could always be videotaped in the field and brought back to the station for editing. In a competitive market, one might see reporters and crews anywhere. However, microwaves were of use only where one had a clear line of sight to the receiving station, and the demand for channels seemed never to end. If a station wanted to cover a story in another city, it had to accept delays and pay through the nose for a connection through the telephone company or a satellite common carrier. Although some stations with helicopters for news and traffic coverage used them asrelays for distant ENG microwave signals, this was uneconomical and often technically difficult-and dangerous. (Several helicopters owned or leased by both radio and television stations for reporting on traffic conditions have crashed, some with loss of life.) In the mid-l980s, a new solution, satellite newsgathering (SNG), allowed major market station news crews to operate from trucks housing a satellite transmission antenna. Such vehicles, substantially larger than the vans in which conventional ENG crews could travel, often cost several hundred thousand dollars. SNG combined with ENG placed stations more in control of their own news coverage and lessened their traditional reliance on network news department outtakes to supplement local news. By the late 1980%several SNG networks, notably CONUS (for “continental U.S.,” set up by Minneapolis-based Stanley Hubbard), interconnected stations across the country on an adhoc basis depending on the newsstory and its location. Since members of this association agreed to provide service to other members if their equipment was not tied up, a station sometimes found itself feeding a news event to affiliates of a rival network that would in turnfeed it back to the originator’s competition! All of this spelled more news options for local news directors, though. These additional options were mixed blessings. Since the station with the highest-rated local news typically retained that lead throughout the evening’s schedule, the news department came under muchcloser scrutiny by station management. The high costs of new hardware [such as computers
540
Chapter 10 Challenge and Competition (1977-1988)
for the weathercasters or SNG trucks) did not carry over to higher salaries for news personnel-except, of course, for anchors, whowere able to charge as much as the traffic would bear but whose tenure often ran from rating book to rating book, since theyacted and were treated as entertainers. The cable industry finally jumped on the newsbandwagon in the1980s. Considerable expectations surrounded the start-up ofTed Turner’s Cable News Network, which was announced in 1978 and began operation in June 1980. Turner offered to provide something that only all-news radio stations had suppliedbefore-24 hours of news andfeatures. Based in Atlanta, CNN was thought by some (especially those in broadcasting) to be a joke or gimmick that would not last. How could a video news service sustain itself without the backing of a network or some other existing news organization? And would Turner fiscally beable to afford a true newsservice? But starting with fewer than two million cable homes, CNN soon established itself as a lasting player. Becauseof its constant availability, its effective tie-in with European news agencies, and its reliance on young and hungry staff members whose apparent interest was in getting out the news and not in gaining a few minutes of air time to benefit their own careers, CNN grew in importance. At the beginning of 1982, CNN provided a second channel, CNN Headline News, with half-hour updates. The clear audience success of the service brought competition. ABC and Westinghouse set up their Satellite News Channel in 1982and marketed it to cable systems. Both CNN and SNC lost money, which discouraged ABC and Westinghouse morethan Turner, who was able to buy out thecompetition for $12.5 million in October 1983. CNN showed the networks that a lot of people clearly wanted access to national news at times other than the traditional six o’clock. The networks responded by giving Nightline (ABC) a regular time period and by trying an all-night all-news service (Nl3C’sOvernight)for a short while. As one result, Linda Ellerbee, the outspoken and down-to-earth cohost of that andseveral other programs over the years, finally decided to try to produce her own shows-from which she could not be firedwhen network strategies changed. When longtimeABC sports chief Roone Arledgewas given the network‘s news portfolio in 1977 and instructed to getthe third-ranking news operation up to competitive status with CBS and NBC, he experimented with several formats in the evening newscast. One unsuccessful approach had three or four anchors in as many cities. Finally, Arledge settled on Peter Jennings,who had anchored for ABCin the early 1970sbut admittedly had done a miserable job then, in part because of lack of experience. After several yearsof foreign reporting, Jennings made a far moreappealing and creditable anchor for ABC in the 1980s, frequently coming out on top in theweekly ratings wars. Another bright ABC star was Ted Koppel, who was assigned to a nightly series of programs starting at 11:30 P.M. East Coasttime dealing with “America Held Hostage” by Iran’s imprisonment of American embassy officials in 1979. As the captivityof the American diplomats extended into1980 (they were released the day Ronald Reagan was sworn in as President in 1981),
w to replace NI3C’s J efly been an anchor
Photo by ~ t h o n ~y d g e w o ~ h .
Photo courtesy of Torn Brokaw.
Photo c o ~ t e s yof Capital Cities
ews*
542
Chapter 10 Challenge and Competition (1977-1988)
other topics were covered. The program’s name was changed to Nightline and its lengthwas regularized, dropping to half an hour (with the authority to extend beyond thatif needed). Koppel, a superb interviewer, was one of the few in the news business who had the background, intelligence, and insight to hold hisown against newsmakers with their o w n agendas and thus obtain useful and revealing information. Al3C created short documentaries on a few hours’ notice to set thestage foreach program. Nightline provided a regular outlet in addition to the weekend interview programs (such as Meet the Press) for people with important thingsto say. While many of the subjects covered on Nightline (and on a long-form version of the program aired several times a year) were picked in advance, it always seemed able to provide a perspective on important events that had taken place the same day. The program became increasingly influential, and not only as a lateevening tonic for those stuffed with entertainment programming and CNN during the day. Koppel’s staff was particularly good at obtaining people with opposing points of view to debate their positionsface-to-face (or, since they might be at affiliated stations all over the country, face-to-monitor), and Koppel had the ability usually to keep them on the subject, although half an hourwas hardly enough to cover a topic in depth. CBS News went throughyears of internal agony in the1980s as the network with the Murrow tradition and the Cronkite image fell on bad times, poor judgment, and worse luck. It began with the retirement in 1981 of longtime anchor Walter Cronkite (see p. 445),eased out by network management worried about losing up-and-coming Dan Rather to the competition as well as by the increasingly older demographics of the CBS Evening News audience. Ratings dipped when thesometimes overly intense Rather took over. More serious was a combination of changing CBS news directors and thegrowing pressure from headquarters to cut costs-particularly after Laurence Tisch assumed effective control (see p. 511). While Rather rebuilt the show according to his own agenda (Cronkite was not even allowed to participate in the1984 election coverage, though he didplay a role in 1988, when Rather felt more settled in hispost), he made some mistakes. One was an apparently petulant several minutes of dead air when a sporting event ran overtime, and another wasallowing himself to be manipulated by Vice President George Bush in an interview early in 1988.Layoffs and political infighting severely hurt CBS’s image and performance, and a number of veterans moved on to other jobs. The level of internal conflict was reflected in several books (typically written by the losers) about executive turnover and the declineof news division independence and prestige during thatperiod. At one point, some of the present and past members of the staff offered to buy CBS News from the parentcompany. Nevertheless, by the time Douglas Edwards (whose network anchoring assignment had started 40 years before) retired in 1988,CBS News was quite different from the organization it had been during itsglory years. NBC’s new generation came on board with less fuss as longtime Today host Tom Brokaw replaced John Chancellor in 1982. David Brinkley left
10.6 Programming
543
after more than 30 years at NBC to become a commentator on ABC News. NBC’s prime time ratings success helped to propel the quiet-spoken Brokaw to the top of the evening news ratings heap. Networks increasingly were willing to accept (or recruit) those who hadbeen successful elsewhere and even hire those who had not made their previous career in broadcast journalism.When Larry Grossman was easedout of the NBC News presidency in 1988, the network went to the newspaper industryfor Grossman’s successor. I n spite of all the new technology and changes in personnel, network news was still only 30 minutes long at the end of the 1980s-the same length it had been for a quarter of a century, and occupying the same period. The networks had tried several times to persuade their affiliates to accept longer evening network broadcasts, but the money being made on local news and syndicatedshows continued to limit network news feeds to half an hour. Further, network documentary production was down sharplyin the 1980s from levels of years before. The number of documentaries and news specials on thethree major networks shrank toa total of 31 in 1987-versus 51 in 1977 and 100 in 1967. Many of the surviving documentaries were more entertainment or soft news features than hard-hitting investigative reporting. Few hard-nosed documentaries or similar programs remainedand they often attracted legal problems (see pp. 579-580). The small audiences and advertiser dislike of controversy in documentaries all but did in the genre, except for an occasional special dealing with the problem of the year and PBS’s Frontline. The networks closed down their documentary units andconcentrated on 90-second reports for the evening newscasts. A “softer” format did successfully survive. CBS’s 60 Minutes thrived and stayed among the top-ten-rated programs for decades. Its formula of offering three or four stories a week and some important and manysofter features brought imitations likeABC’s 20/20.When the costs of entertainment programming rose, several networks looked to their news divisions for relief-spawning such programs as CBS’s West 57th.This development was exacerbated by the 1988 Hollywood writers’ strike, since newswriterswere not affected. Syndicated feature programs under such namesas Chronicle, PM Magazine, and Evening Magazine occupied the profitable “prime time access” period between the network news and the start of entertainment programming at 8 P.M. ‘(7P.M. CST) for those stations that wished to counterprogram game shows such asJeopardy and Wheel of Fortune. Even the often-parodied Lifestyles of the Rich and FQIIZOUS fit into this category. During this period, the Middle East replaced Vietnam as the hot spot most often shown on home television screens. No longer was this oil-rich region simply the sceneof conflict between Jews and Arabs, for now Americans were intimately involved. On November 3, 1979, in the aftermath of the Ayatollah Khomeini’s ouster of the Shah of Iran, a mob of “students” stormed the American embassy in Tehran, taking several dozen prisoners from among the staff. While the Carter administration made fruitless and apparently weak efforts to free the captives (including an abortive rescue
544
Chapter 10 Challenge and Competition (1977-1988)
attempt by helicopter), thenetworks covered the Islamic Shiite revolution in Iran and its overflow into once-peaceful Lebanon. Night after night, scenes of the civil war in Beirut or interviews with often veiled spokespersons of one sect or another were shown onnetwork newscasts-often making no more overall sense to American viewers than the recently abandoned Asian war, which also lacked clear reasons, sides, and lines of fighting. The taking of a number of individual hostages in Beirut in the 1980s and the blowing up of both the American embassy and a barracks (killing more than 200 Marines) kept the story hot. Critics expressed concern about network coverage of terrorists, since someterrorists seemed to engage in deadly acts solely to facilitate access by their spokespersons to American television screens. To some extent, the story was “terrorism” rather than “theMiddle East.” Such stories as the bombingof Pan Am Flight 103 over Scotland at the end of 1988 and American attacks on Libyan aircraft and cities all could fit into this framework. The hijacking of TWA Flight 847 in July 1985 and thetwoweek drama that ensued illustrated the problems of trying to balance hostage and family concerns with thepublic’s demand for news, any news, of progress in negotiations for the hostages’ freedom. (This dilemma was given a reprise when a made-for-television movie on the hijacking was shown in 1988,shortly before one of the hijackers was brought to trial.) Television faced severe problems of access to other stories. The military had learned its lessonin Vietnam: allowing reporters independent access to an armed conflict would open more doors to questions about the wisdom of engaging in the conflict in the first place. The almost farcical invasion of the Caribbean island of Grenada in 1984 was poorly covered at first because the Pentagon would not allow reporters near the island for several days. Criticized by all media, the Pentagon suggested guidelines for future “pool” reporting. These were tested in the 1987-1988 crisis in the Persian Gulf, when gunboats and aircraft tried to sink oil tankers of neutral nations duringthe dragging Iran-Iraq war and a large force of U.S. Navy ships was sent to the area. Twice in less than a year, American ships were attacked, and one American ship shot down an Iranian airliner by mistake, killing all aboard. The media found-not to their surprise-that they were almost totally at the mercyof what themilitary would allow in coverage. Some reporters operated independently, and the monitoring of radio transmissions (honed to a fine extent during previous Israeli-Arab conflicts) also proved useful. But without “credentials,” it was impossible for the news media to prevailagainst the curtain of military might dropped over the region. Many viewers and listeners were reminded of the assassination of President John F. Kennedy when, early in 1986,the space shuttle Challenger blew up just over a minute after launch. Only CNN had been carrying the launch live-we had become that used to routine and safe space travelbut the networks soon joined in the coverage. Over and over we watched the videotape of the exploding shuttle. For days, the media badgered the
10.6 Programming
545
families of the astronaut crew andbesieged the National Aeronautics and Space Administration for more information. Nearly three years were to pass before NASA again sent a shuttle into orbit, in late September 1988. During congressional hearings on the disaster, television viewers had a fine moment whenphysicist Richard Feynman, live and without rehearsal, dunked aflexible o-ring-which he suspected of causing the failure-into ice water and cracking it to demonstrate the probable cause of the disaster. In the meantime, broadcasters as well as other industriesand the military worried about their inability toplace new or replacement communications satellites in orbit, since the United States had allowed its rocket booster capability to deteriorate, expecting to be able to use the shuttles whenever needed. Some satellites eventually were launched intoorbit using vehicles produced by other countries. Even the USSR and China offered launch services-for a price. Domestic news-disasters, scandals, government hearings-also received substantial coverage, made easier by the new news-gathering technologies. But ability to show pictures did not always mean that the full story was being told. When theThree Mile Island nuclear power plantnear Harrisburg, Pennsylvania, vented radioactive waste into the air in mid1979,the media (so said a later investigating commission) stressed more “what if’ stories about a potential meltdown than factual “what is”material about the hour-by-hour events inside the plant-adding to the audience’s concern with, and stress over, events. (Of course, the power company and government spokespersons provided as little information as they could-a foolish move in light of the success of an entertainment film, The China Syndrome, which had opened that month and had almost the same scenario as TMI.) When a Soviet nuclear plant at Chernobyl burned and let loose a huge amount of radioactivity over much of Europe in 1986,television reports seemed to fall into the same trap,partially-again-for lack of definitive official information.
Sports on television continued to fascinate many Americans. Two of the five largest audiences in US.television history were for Super Bowl football games-and the other games in this series were right behind. The jokes about “couch potato” fans of televised football (especially on weekend afternoons) seemed perennial. Someof the most profitable cable program services, such as ESPN, provided the viewer with nothing but sports. As a result, it was far easier to pry money and new equipment (such as stop-action videotape recorders) from managers for sports than for news. Sports coverage during these years continued to be punctuated by the quadrennial Olympic Games, covered in this period mostly by ABC. The 1980 Winter Games were highlighted by an emotional win by the U.S.
546
Chapter 10 Challenge and Competition (1977-1988)
hockey team against a more experienced Soviet team. The Summer Games never came off on U.S. television, as NBC was faced with a U.S. government boycott of the Moscow-based games due to the Soviet invasion of Afghanistan the year before. NBC had paid$85 million for the rights to televise the games and lost about $25 million even after insurers paid up. In 1984, with the Summer Games in Los Angeles, ABC provided 180 hours of coverage from 30 locations as much as 190 miles apart all over the Los Angeles area. The ceremonial opening and closing sessions, staged by impresario David Wolperand held in the old 1932Olympic Stadium, harkedback to the massed entertainment of old Busby Berkeley musical movies from the 1930s. Some 80 million viewers from all over the world watched.ABC covered the 1988 Winter Games in Calgary in a visual feast but found that the audiencenumbers were down as the U.S. athletes did not do well in the nationalistic or chauvinistic race for medals. The 1988 Summer Games in $300 million Seoul, SouthKorea, covered by NBC, which had paid record a for the rights, were held under some of the tightest security arrangements ever seen. While the 14-hourtime difference between Seoul and theeastern United States was a factor, many observers felt that onereason for a severe drop-off in audience size and interestwas the lack of audience familiarity (and, perhaps,level of experience) of NBC’s on-air crew. Television coverage of a professional sport often meant the difference between financial success and failure. Tennis and golf tournament winners moved into thebig money because of increased television attention to their playoff games. Virtually all professional baseball and football teams, and players of other sportssuch asbasketball and hockey, signed coverage contracts with one or more stations or networks, and theresulting television income was considerable. Even college teams got into bidding wars. In 1988, the Chicago Cubs, the last major league baseball team to restrict itself to the traditional afternoon contests at home,began to play under lights at Wrigley Field. This came about when the other organized baseball owners exerted pressure because their clubs were losing gate receipts by not playing televised night games in Chicago. By the late 1980s, cable was flexing its muscles and seemed likely to play a more important role in covering some sports events, including perhaps a shareof the Olympics, before the 1990s would draw to a close. 10.6.5 Mediflolitics; PoliticsAVledia
Television played an expanding role in American politics in the decade covered here, in part because of the development of new services. Chief among them was the cable industry sponsored and supportedC-SPAN (Cable Special and Public Affairs Network), developed initially to cover the U.S. House of Representatives after that body approved television access in 1979. C-SPAN took its feed from the House-controlled cameras and thus
10.6 Programming
547
became a visual record of debates on the floor. C-SPAN also covered some hearings. In 1984 a politicalcontroversy arose when theHouse Speaker, Democrat Tip O’Neill, allowed the cameras to pan the floor of the House to show howfew members were present for some late-afternoon GOP speechmaking. The Speaker was slapped on the wrist, and the cameras were ordered to remain focused on the podium-but the coverage continued, although little usedby commercial networks. The Senate took much longer to decide that the benefits of coverage outweighed the disadvantages. In 1978, radio was allowed to carry the floor debate on theratification of the Panama Canal treaty, and NPR carried the entire three days, while CBS and NBC aired only the first day. Otherwise, television coverage was limited to various Senate committee hearings, which over the years have created substantial video drama-the 1951 Kefauver crime hearings, the Army-McCarthy hearings of 1954, and the investigations of the teamsters in the late 1950s (see pp. 378-382). Both houses had long recognized that the publicexpected to see some congressional events on their screens, including ceremonial proceedings such as the annual presidential State of the Union address, and matters of major importance such as theHouse of Representatives’ proceedings leading toward impeachment of President Nixon or the Iran-Contra hearings. When the House of Representatives decided to allow television coverage, the Senate agonized in a series of hearings and reports. By the 1980s, it was clear that the lower house was getting more publicity and news coverage thanks to the presence of the cameras-and that finally tippedthe balance for the politicians in the Senate. After an experiment with limited coverage, the Senate finally opened its floor to full-time cameras under control of the presiding officer, causing C-SPAN to set up a second channel. Television covered three presidential elections in this period: 1980, 1984, and1988. In the first two, an incumbent presidentwas running for office. In all three,television played the dominant role in carrying the candidates’ images and messages to the voters. President Jimmy Carter (serving from 1977 to 1981) made effective use of the medium, doing well in debates with President Gerald Ford, including one in which a technical bobble caused both candidates to stand silently behind their podiums for nearly 20 minutes. Carter won the election and started his term with the inaugural-day walk down Pennsylvania Avenue with which this chapterbegan. He held regular news conferences and appeared on talk shows. But despite his successes in such things as bringing Egypt and Israel to an agreement, Carter carried with him a public perception of ineptitude. Former California governor Ronald Reagan, his opponent in 1980, was a master of the media, even gaining approval for “taking charge” with an“1 paid for this microphone!” comment during a New Hampshire primary campaign debate that Reagan had, infact, paid for. It had been expected by the Carter camp that there would be several one-on-one televised debates
548
Chapter 10 Challenge and Competition(1977-1988)
with Reagan. But Representative John Anderson’s third-party quest for the job gave broadcasters equal-time problems, so only one debate took place. The October 28 face-off was in Cleveland, was produced, as before, by the League of Women Voters,and was carried by allthree networks. The debate did not seem to play any pivotal role this time. On election night, Reagan was declared winner early-by NBC at 8:15 P.M.EST-rekindling the old debate about the impact of such early declarations on voters in states where polls were still open. West Coast voters had several hours left to vote, and some later research argued that thousandshad remained home, with resultant impacts on many local and statewide races. Reagan ironically made more limited use of television than did Carter, despite the new President’s theatrical film background and reputation as “the great communicator.” While he continued his weekly radio program throughout his two terms in office, Reagan seldom held traditional press conferences, forcing reporters to yell questions at him during “photo opportunities” in hopes of some give-and-take. Although part of this was blamed on the need for security-Reagan had been seriously wounded in an attempted assassination early in hisfirst term-much of it wasdue to the universal desire of politicians to control news. Reagan came over well, folksy but seemingly in charge, in televised Oval Office speeches. His personal popularity insulated him from attack and even from sharp questioning by reporters such as ABC’s Sam Donaldson, who assumed the mantle worn by CBS’s Dan Rather in the Nixon administration. Other Republican candidates and policy issues tended to fade out of sight, as did Reagan’s own penchant for makingerrors in public utterances (a tendency thatseems to have afflicted many Presidents of recent years). Inlate 1983, the FCC revisited its policies on televised political debates. It reversed several previous decisions and heldthat broadcasters could produce debates without fear of equal-time requests from excluded minor party candidates. No longer would thenetworks have to go through the charade of covering a debate as if they were mere bystanders rather than the reason the debate took place. Despite the rulechange, the League of Women Voters retained its role in 1984 by sponsoring two debates featuring presidential candidates and a third featuring vice presidential candidates. Ever since the1950s, political campaign managers had been controlling more and more of what the publiccould see of a campaign, although it was impossible for them to control everything. For example, the 1984 campaign will be remembered for having the first woman on a major party’s national ticket as New York Congresswoman Geraldine Ferraro ran for VicePresident on the losing Democratic ticket with Senator Walter Mondale. Many felt own in the vice presidential debate with that she more than held her Republican George Bush, and the mediafocused on her-and on her husband’s financial problems-more than it had on most vice presidential candidates in the past. An obscure 80-year-old Chicago manicurist named Clara Peller, who had played in a television commercial as a fast-food
10.6 Programming
549
Covering the Conventions Television coverage of political conventions continued to dominate the quadrennial rituals in the 1980s (left picture is of the 1988 Republican National Convention). The formation of Cable News Network( C N N ) in 1980 led to its playing an important role, often providing the “gavel-to-gavel” coverage that was once the hallmarkof network television. Starting in1988 the traditional networks limited their coverage to a few prime time hours into which convention planners had moved all important events. Even less coverage was provided during the conventions of of the party gatherings by presethe 1990s as primary elections took away the suspense lecting candidates.
m
Photos courtesy of National Associationof Broadcasters.
customer wondering “Where’s the beef?, ” found her question underlining the Mondale theme that the Reagan administration lacked substance. On election night, due inpart to pressure from Congress,the networks tried to avoid jumping the predictive gun that had raised so much controversy in 1980 and were somewhat more cautious in making early predictions. The 1988 race seemed to start earlier than ever-as far back as 1986, when the first candidates declared for both parties in what was seen as a wide-open race without an incumbent for the first time since 1968.On the Republican side, long time television evangelist Pat Robertson declared for the GOP nomination, and for a time it appeared that those years of preaching might translate into votes. After a strong showing in early primaries, Robertson was undone,in part, by television tapes of some of his earlier religious claims. (Scandals involving other television evangelists such as Jimmy Swaggart and Jim Bakker also did not help Robertson’s cause with the average voter.) Former Colorado Senator Gary Hart was the Democratic front-runner until reporters, acting on whatwas almost a dare of Hart’s, discovered his apparentdalliance with amodel. Jesse Jackson, building on his 1984 race, made a creditable showing in early primaries and electrified the drawn-out process with histelevised oratory. More than in earlier elections, the 1988 race was called a “media campaign” as press and television “horse race” stories made and broke candidates until the first primary votes were counted. The networks jumped to conclusions, and the politicians and public followed. There were televised network-sponsored debates among the initially long list of candidates (six or
550
Chapter 10 ChallengeandCompetition
(1977-1988)
seven for each party) before most primaries. By the time the Democrats met in convention in Atlanta, it was clear that theelectorate found the drawn-out process boring. Consequently,the networks continued their practice, started in the Summer of 1984, of not carrying the proceedings of each political convention “gavel to gavel.” Indeed, even with the coverage abbreviated to two hoursor so per evening (not including CNN and C-SPAN, which, by carrying the entire convention, gave the networks an excuse not to bother), the network coverage tended to consist as much of reporters roaming the halls to try to find a delegate or official with something to say than of presenting on the screen the carefully scripted convention itself. This was particularly true during the Republican convention, when Senator Dan Quayle’smilitary record became a subject of controversy just prior to his nomination as George Bush’s running mate. The handlers of both presidential candidates, Massachusetts Governor Michael Dukakisand Vice President Bush, groomed their men to deliver outstanding acceptance speeches-and both did. But audiences for the network‘s abbreviated coverage were lower than ever before-cable and independent stations saw huge ratings jumps, even for grade B movies. It appeared likely that the traditional four-day convention coverage was doomed to further streamlining, with television paying attention only to highlights-and any real news (or rumor) they could garner in spite of the best efforts of the political party managers to script theevent. The 1988 debates-two for presidential and one for vice presidential candidatestook place on schedule, one under auspices of the League of Women Voters,which refused publicly to do more because of the tight control of the political parties. Unlike the situation in 1960, few people changed their minds asa result of the debates-and many stations did not even bother carrying them. Still, Dukakis’s weaker presentation and stiff personal style, especially in the second debate, helped cost him the election, Even moreimportant to Bush’s win, however, was his campaign’s masterful establishment of a media agenda through orchestrated attacks on the media, short negative commercials, and his being sure to provide “sound bites” (a few seconds of slogan or pithy quote rather than a detailed presentation of the issues) to the news media (particularly television) in time to make the evening news on a daily basis.
10.7 Audience Changes and Constants One important basis for assessing the impact of broadcasting and other technologies has been the comparative pace with which thepotential audience purchased the product (such as a receiver or player) and the resultant “penetration” of service into American homes at any given time. Optimistic talk of new technologies in the1970s usually stumbled over the crucial detail of just how many or how few Americans could (or would) use the new option. For example, despite the hoopla, only 13% of American homeshad
10.7 Audience ChangesandConstants
551
CD players at the start of 1989,whereas 11% had home security alarm systems and 21% had home computers (manyof them not used),according to the Electronic Industries Association. Cable television, though first developed in the late 1940% took until 1972 or 1973 to reach even 10% of the nation’s homes (see Appendix C, Tables 9-A, 9-B)and reached half the homes only in 1 9 8 8 4 0 years after first appearing. Radio took a decade to reach 50% penetration (see Appendix C, Table 6-A). But the videocassette recorder took only 12 years from the first sales of the Betamax in 1975 (see pp. 410-411) to reach the 50% of homes standard(see Appendix C, Table 7-B),helped along by falling prices and the VCR’s relation to expanding cable and other services worthy of home recording. It also led to a new retail business-the rental of videocassettes of feature films at some store in almost every neighborhood. The growth of VCR usage contributed more to the decline in movie theater attendance than anything had since television itself burgeoned in the1950s. In the more distant future, we may look back and see 1987 as a watershed year, when these two “new” electronic media-cable and VCRs-became more important to the average member of the audience than theradio and television stations that hadprovided so much for so many years. Continued expansion of television receiver ownership naturally provided outletsfor the new services as well as for broadcast television. By the of American homes had color, and 60% had more than start of 1989, 95% one receiver (see Appendix C, Table 7-B).More than 98% of homes had television and radio sets. Because of intense competition, television set prices actually fell during this period,particularly if the high rates of inflation in the late 1970s and early 1980s are taken into account. In 1988,a 19-inch color receiver for the living room might have been bought for as little as $250,and one of the many black-and-white sets purchasedfor other rooms of the house, or even for portable use, for as little as$69. A small but growing minority of homes had top-of-the-line television receivers with stereo sound (about 15% early in 1989,with another 11% that could be adapted for stereo), pictures-within-pictures,built-in digital tuners for cable, displays indicating which channel was being viewed, or large display screens. These ranged in size from about 30 inches to several feet diagonally-and were in perhaps 2 to 5% of homes and a much larger proportion of taverns, following the pattern of usage set in television’s earliest days. Some home projection television receivers could cost as much as $3,500.Most television sets were made in the highly competitive (as Japanese costs rose) in Korea, Singapore, Far East-first in Japan and then Hong Kong,Taiwan, and elsewhere, including China. By 1987,only Zenith among major manufacturersstillmadetelevision receivers in the United States, and the number of American-made television sets exported was only half a million. Although American manufacturers madeand sold another six million setsin the United States, these figures are small when compared with the 15.11 million sets madeabroad and imported thatyear.
552
Chapter 10 Challenge and Competition (1977-1988)
(In 1977, the equivalent figures were about 340 thousand, nearly 4 million, and 7.5 million-showing both a near-doubling in total number of television sets sold in the United States and a faster rate of growth in the proportion of imports.) Almost three-quarters of all VCRs, which barely existed in 1977, were built abroad in 1987. Television usage-or, more precisely, the number of hours any television set was turned on in the average home, a figure that had regularly climbed several minutes per week for years-began to dip slightly in the late 1980s, down from a peak of 7 hours and 8 minutes of daily use recorded in 1983-1984. Homes with pay-cable service generally viewed more per week thandid homes withonly basic cable or those with only off-air broadcast service.Since these figures included all family viewing (see Appendix C, Table 8-A), they should not be confused with figures forthe amountof time that given individuals or demographic groups watched. Likewise, radio-listening patterns changed perceptibly in thelate 1970s. After years of bringing up the rear, FM radio stations reached larger national audiences than AM stations in 1979, and soon the top-rated stations in most markets were all FM outlets-except for all-news AM stations, which reached more people but for only a few minutes a day. The reasons for the belated success of FM were varied, including the usually fewer advertisements, better sound quality (including stereo), and more musical format variety (see pp. 501-502). By the late 1980s, AM stations collectively shared only a quarter of the national radio audience (see pp. 526-527). Both radio and television were forced to share ever moreaudience time with prerecorded materials: rented or purchased videocassettes and audiocassettes (now available everywhere and accessible at any time through tiny, lightweight portable players and earphones) or compact discs. Whatever the source of the sounds, more than a few critics-and long-suffering parents-argued that whatever kind of music teens listened to, especially with earphones, the audio levels were usually so high that serious hearing losses would likely result in later years. 10.7.1 New Methods, New Media
€r%wmm
That the audiencegenerally continued to be pleased with theservice given them bytelevision was evident in the biennial Roper Organization surveys done for the television industry (see pp. 455-4157). Overall public opinion changed little from year to year after 1976, with 68 to 74% of the audience feeling that television was doing an excellent or good job and only 29 to 23% feeling that the job was fair or poor. Television ranked better, overall, than did newspapers. As the source of the typical person’s news, television had consistently outranked newspapers and radio since about 1970. Although the television industry pays for this professionally conducted survey, the consistency of findings at least argues television’s prominent place
10.7 Audience Changes and Constants
553
in American life for more than three decades-nearly twice as long as network radio had heldthis position. Suggesting some degree of dissatisfaction, however, were the findings of a 1980 national survey that built on related studies tracing back two decades (see pp. 455-457). Robert Bower’s The Changing Television Audience in America(1985) concluded that there were both consistencies and changes in audience reactions to television. While overall public reactions to television had, Bower reported, “drifted from high enthusiasm to modest appreciation” from 1960 to 1980, this was due in part to increased education (“higher education decreases admiration for television as an institution”) and in part to a wearing off of the novelty of the medium after 35 years. But viewing was up about 27% from 1960 to 1980, pointing out again that publicly expressed attitudes toward the medium are often poor predictors of actual viewing behavior. Parents’ favorable reaction toward “the big babysitter,” children’s television, rose until 1970 but has declined since, as more is learned-and expressed in competing media, such as newspapers and magazines-about television’s sometimes negative impact on children’s development (see pp. 556-558). Yet another “effect” of the media might be measured in the increasingly successful campaigns by politicians and special interest groups to discredit the traditional watchdog roleof the mass media.The messenger wasattacked rather than whatever it was that the media had uncovered, making some wonder if the eleventh commandment (“thou shaltnot get caught”) was not becoming more important in America than the other ten (see pp. 558-559). Ratings firms were put under increasing pressure from advertising agencies to update their techniques because of the expanding number of channels delivering programs into the home, the growing sophistication of advertisers, and improved methodologies developed by academic and commercial researchers. Until 1987, “the ratings’’ were not substantially different in approach or form from those of three decades before. The costs of this audience research to the networks, stations, and advertising agencies that paid for it continued to rise,however, since it was essential to thecommercial broadcasting system. That was one of the factors that led to takeover of the twolargest ratings companies by larger,well-funded new parents. Arbitron had become a part of Control Data in 1967, while the A.C. Nielsen Company was purchased by Dun& Bradstreet in 1984. A new player and method entered the scene in late 1984 when the British company AGB introduced the “peoplemeter” with an experiment in Boston. While AGB did not last (it endedoperation after just 11months, unable to get the networks and major advertising agencies to support its attempt to compete with Nielsen), people meters did. People meters are electronic devices that measure when a television receiver is on, to what channel it is tuned,and-unlike traditional meterswho is actually watching (see p. 554). Developed independently by several firms during the1980s (and actually used by regular ratings services in
554
V - 7
10.7 Audience Changes and Constants
Europe before its introduction here) the people meter promised more information of interest to advertisers, though at some risk to br ers , since some people~particularlychildren-failed to indicate the nce when queried by the people meter, thus reducing overall ratings. A.C. Nielsen had the strength and advertising agency support to start phasing out its Audimeter-diary methods and move to people meter techni~ues, finally replacing its traditional procedures in September 1987. In 1989, Nielsen reported initial development of a scanning device-rather than push buttons-to determine who was in the room. The networks, already under pressure from cable and other services, were very unhappy with what they called a rush to the new system. They complained about the sample size (initially 2,000 homes, as compared with the national Nielsen meter sample of 1,700-but planned for an increase to ~ , o o o )and composition (too many cable and pay-cable homes were included for the networks’ taste) of the people meter national sample. Critics argued that the frequent button-pushing called for by the new system would quickly bore or tire audiences, thus skewing results. The new means of measurement showed that television viewing overall was off by about 1 0 %while ~ many specific program ratings were sharply different from ratings obtained in the older way. Columns of trade magazines were filled with arguments and conflicting data as to why this occurred and whether it was an artifact of the technique. since the advertisers were pleased, conversion to people meters Arbitron also proposed a new technique, engaging in an extensive experiment in Denver called “ScanAmerica,’?which combined a Universal Product Code reader (able to interpret those thick and thin lines found on almost all packages nowadays) with a people meter so that sample households could easily report product purchases. Researchers presumably could now compare actual viewing behavior with resultant buying decisions-~e research connection that advertisers had wanted for years and that h enjoyed only by some small marketers who took orders only by telephone and kept track of which commercial had aired immediately before the call. The researching of local market television audiences was not directly . comparatively high cost of affected by people meters in the late 1 9 ~ 0 sThe these electronic devices continued to restrict local market researchers to written diaries and (sometimes) telephone calls, ~ e a s u r i n gthe audiences for newer and still-developing electronic media, especially cable and VCR use, posed another major methodology problem in the 1980s. Researchers wondered about the effect o f increasing remote control usage on viewers?behavior (more channel swi~chingand thus less ~‘1oyalty”-countered by tacit agreement among some networks to air minute, to reduce the amount of channel commercials at exactly the sa surfing), whether cable and V use added to or took away from time spent with broadcast services (a bit of both, with more hours viewed overall, but nearly all of the added time went to the new services), how to measure ?
556
Chapter 10 ChallengeandCompetition
(1977-1988)
viewing delayed by VCR time-shifting, and whether wholly new methods were needed to portray fairly and accurately the audience for newer multichannel, services. By the mid-l980s,Nielsen was issuing regular ratings reports for all major advertiser-supported and pay-cable networks. A lot of information on patterns of VCR use was also emerging-including the fact that a substantial proportion of material recorded was never viewed! Audience research had gone a long way along the road from estimating set-tuning to estimating individual viewing. But it hadto be acknowledged that the amount of attention paid to the set while “viewing,” and the amount of commercial information comprehended and retained, were studied only in the laboratory. Still largely ignored by the commercial industry was any possible system of qualitative ratings that would regularly seek data on viewers’ reactions to, if not the effects of, what they watched. Even such a seemingly simple bit of information as what kind of radio-listening went on in automobiles was on shaky methodological grounds. And to go from these figures to deciding that a given commercial reached a given ~ him or her to buy a particular product member of an audience Q I I caused or service clearly was not justified. The ratings (see Appendix B) were the only game in town for the advertisers, and they were improving-but they most decidedly were not yet perfected. Advertising agencies constantly improved their own tools for assessing potential consumers, spending large sums on suchtechniques as “psychographics” (categorizing people in psychological rather than demographic terms) and “focus groups” (which were subject to intensive interviewing and debriefing). Assisting in defining these problems and finding means to overcome them was the industry supportedand directed Electronic Media Ratings Council (EMRC), formerly the Broadcast Ratings Council (see pp. 455-456), whose research concerns extended in 1982 to cable and VCRs. As with its predecessor, the EMRC performed a combination auditing and accrediting function, helping to ensure that ratings surveys met at least minimal-and common-standards of reliability, although shying away frommany questions of validity. 10.7.2
v
Kidvid (Phase Four)
The late1970s saw what may have been the peak of serious government interest in improving television programming for young children. Theeffort came in parallel actions at two federal agencies. First, an FCC task force study issued late in 1979 found that broadcasters were not in compliance with the FCC’s 1974 policy statement, which called for voluntary action to increase educational programming and for less advertising in children’s television (see p. 459). The staff recommended mandatory program quotas for school-age and preschool children’s programming. At the same time, a Federal Trade Commission staff study strongly recommended limiting or eliminating all advertising in programming aimed primarily at children,
10.7 AudienceChangesandConstants
557
calling it “inherently unfair.” Numerous members of Congress found these reports excellent public relations vehicles on which to stand, whileothers declared them tobe antibusiness and moved to oust theFTC chairman. But the election of Ronald Reagan,and theresultant change in personnel and deregulatory priorities at both commissions (see pp. 559-560)’ stopped these recommendations in their tracks. Latein 1983, after an FCC hearing on the policy issues involved, the commission issued a new statement that once again rejectedany mandatory children’s programming requirements and simply restated the commission’s 1974 call for voluntary action. That weak action was insufficient for the activist views of Action for Children’sTelevision (see p. 459), which took the FCC decision to court. The U.S. Court of Appeals upheld theFCC’s decision, arguing that theagency had changed its thinking on children’s programming, an action certainly within the commission’s power. When the FCC later deregulated television advertising time guidelines, including those for children’s programs, ACT appealed again, and this time the Court of Appeals agreed, noting that the FCC had not adequately justified its deregulatory action. In 1987, the FCC reluctantly was forced to reopen the question of the amount of advertising in children’s shows. Concern over the hypothesized impact on children of violent behavior portrayed on television was fed by several legal cases in the late 1970s. In 1977, 15-year-old Ronnie Zamora went to trial in Florida, accused of murdering the elderly lady next door when he was surprised during an attempted theft. His attorney tried a novel defense: he argued that Ronnie could not tell the difference between the real world and television due to his addiction to-the lawyer said “intoxication” with-such programs as Kojak and Police Woman. The jury was not convinced, andyoung Zamora received a life sentence. (Interestingly, this case was the first covered by television cameras after Florida allowed television news to record in its courtrooms.) The murder-after-watching television argument, however, merely gave ammunition to those concerned about television’s effects. That concern was further fed just a year later, when an NBC made-for-television movie, Born Innocent, simulated a brutal rape in a women’s prison. Just days after the showing, a young girl was similarly attacked by several others. Her parents sued thenetwork for having shown the program that “caused” the attack on their daughter. A California court, however, concluded that NBC had not tried to incite the rape, and thus the First Amendment protected the network from any findingsof responsibility. A more definitive statement of television’s impact came in a two-volume 1982 National Institute of Mental Health report titled Television and Behavior: Ten Yearsof Scientific Progress and Implications for the Eighties, an assessment of research conducted during the decade after the famous Surgeon General’s report (see pp. 457-459). Given the huge body of research in thisfield (some 3,000 studies issuedafter 1972-90% of all research publications onthe influence of television on humanbehavior ever produced), the new report synthesized what was already known rather thanreporting on original research or proposing more. The report took a broader view,
558Chapter
10 ChallengeandCompetition
(1977-1988)
reviewing violence studies (now found to conclude that televised violence did have a fairly direct effect on subsequentreal-life behavior) but going beyond that to include broader social impacts. Noting that by 1982 half of all Americans had never known life without television, the report claimed that the medium had become a n embedded partof daily life, with deepand only partially understood impacts on our perceptions of social groups and issues, healthconcerns, and therole of the family. Television was an informal educator of considerable importance. Although most (not all)researchers agreed that the evidence supported the report’s conclusions, it shouldbe noted that the majority of the studies reviewed were content analyses of one kind or another, as opposed to the more conceptually and methodologically difficult studies of the impact of that content. At least one importanttheoretical concept emerged in thisperiod-the study of mass communication’s role as the prime agenda-setter for society. Researchers in many universities noticed that concern with a given issue rose in opinion pollsafter coverage of that issuein print andbroadcast media. A 1977 book by Donald Shaw and Maxwell McCombs raised agendasetting to a more practical level by providing many examples. A stellar example (in both senses of the term) was the mid-1985 worldwide telecast of the Live Aid concert discussed on p. 531. While initial news reports helped place the famine on the public agenda, the concert prompted millions to help solve the problem.
10.7.3 OtherAudience Effects and Criticism The legal quibbling in the Zamora and Born Innocent cases did not deter further attacks on the mediumfrom those who sawtelevision as something that could subvert society. A growing number of people, particularly Protestant religious fundamentalists and the“Moral Majority” group organized by the Reverend Jerry Falwell, joined by political conservatives who objected to television news’s coverageof things they wouldrather not have covered (such asU.S. involvement in Central America), felt that television itself was evil, and that its content should be regulated (few called for its abolition) on moral grounds, Many broadcasters were timid about responding to these attacks, but producer-writer Norman Lear (All in the Famil3 Maude) organized a counter group, People for the American Way, to combat head-to-head those who wouldrestrict television’s ability to reflect changing social mores and provide progressive political and economic views. Yet the impactof television continued to attract theanger of those who felt harmed or limited by its power. Conservative television evangelists claimed to reach huge audiences in the1980s and began to flex their political muscle in the elections of 1984 and 1988, attacking television even while using it (although their power waned by 1988 as first Jim and Tammy
10.8 Rethinking Regulation
559
Bakker and thenJimmy Swaggart were alleged to have committed improper acts). The right and the left both complained about the coverage of their organizations by the nationalnetworks. Former evangelist Pat Robertson on the right and ex-Colorado senator Gary Hart on the left both ran antimedia campaigns during the primaries of the 1988 election. Senator Jesse Helms started a weak attempt to take over CBS in the mid-l980s, calling on his right-wing followers to “become Dan Rather’s boss,” thus controlling the network’s news outputto their liking. As the primary provider of news for most Americans, television news wasconstantly battered-as is the historical fate of most messengers bearing bad news-from all sides, even though repeated reputable studies of television news content generally showed no clear pattern or evidence of bias. However, moreand more, by one meansor another, the independence of the mass media was under attack, and the public joined in withglee. This tendency was far moredestructive than the traditional polarization between the tending-to-be-more-liberal editorial staffs and the tending-to-be-more-conservativemanagers and owners. Of course, the increasing tendency of all news mediato provide entertainment rather than theinformation citizens in a democracy need in order to make valid decisions made some observers feel that the crime was suicide, not murder, whenever the news media lost public respect.
10.8 Rethinking Regulation During the 1980s, the continuing political debate over the proper relationship between government regulators and the electronic media industry heated up. While much of the focus was on FCC chairman Mark Fowler’s clearly stated ideological bias in favor of marketplace solutions to industry problems, a small but vocal minority kept alive a more traditional view of regulation’s benefits.And theFCC was not the only arenaxongress played a very active role in deciding on electronic media policy matters. The policy debate after 1977 was chiefly defined by two schools of thought in continuous collision. On the one hand, “traditional liberals’’ argued that the “public interest,convenience, and/or necessity’’ wording of the 1934 act meant that government should continue playing an important central role in charting the direction and operations of electronic media to make sure the industry served the public, and that the success of the current system in serving the public showed the wisdom of that course. On the other side, “marketplace conservatives” claimed that government regulation cost far more than the limited value derived from it (for either the industry or consumers) and thus that years of past regulatory precedents were now merely baggage to be discarded so that the public could benefit from the effects of highly motivated competition. Both sides relied on ideological argument more than on reliable data, but weren’t willing to carry their argument to theextreme. Sometimes-as with the dismissal of the “spectrum
560
Chapter 10 Challenge and Competition(1977-1988)
scarcity” argument by conservatives-any attempt to analyze the matter objectively would run afoul of very slippery definitions of such basic terms as “market” and “competition.” Deregulation in broadcasting had begun in the mid-1970s under FCC chairmanRichard Wiley (from1972 to 1977) and accelerated under Charles Ferris (mid-1977 to early 1981). Serving both Republican and Democratic presidents, Wiley (a Republican) and Ferris (a Democrat)both believed that changes were necessary and proposed regulatory trade-offs for broadcasting. In return for retaining and even expanding such structural regulation as ownership limits and employment guidelines, the FCC would back away from consideration of more direct content controls, such as specific program or advertising guidelines. The latter type of proposals suffered constant attack on First Amendment grounds anyway and were by far the most controversial measures considered by the commission over the years. So regulators worked under an increasingly clear compromise premise in the late 1970s: government should help to set a broad structural arena within whichbroadcasters could operate freely. Extreme deregulation, aimed at “getting the government off industry’s back,” came with Mark Fowler’s chairmanship of the FCC from 1981 to early 1987. The compromise wasabandoned, together with all but themost generalized support of the “publicinterest, convenience, and/or necessity’’ standard. The cast of regulatory players also changed in this period. Members and committees of Congress, with their own agendas and with membership changes from every election, exercised closer control over what they considered to be theircreature, the FCC. Initially, Fowler had the backing of Congress for the FCC’s deregulatory push. But after the mid-l980s, Fowler, and his successor, Dennis Patrick, found fewer supporters on Capitol Hill, in part because Congress felt the FCC was moving too far too fast and in part simply because Congress, with more substantial staff backing, wanted toplay a more direct role in the policy sandbox. The executive branch was not idle. Presidents ignored questions of telecommunications policy at their own political peril. Joining the fray early in 1978 was the National Telecommunications and Information Administration. NTIA was the lineal descendant of the once-powerful Nixon White House-based Office of Telecommunications Policy. Nowa partof the Department of Commerce, NTIA had the functions of advising the executive branch on telecommunications issues, representing the President’s telecommunications policies, and keeping peace among federal government users of the electromagnetic spectrum (through IRAC). As international meetings of the ITU and other organizations became more common and more central to domestic electronic media developments, the Department of State also took a more active role. The industry continued toplay in all the Washington arenas, although the entry of new players based, in part, on newtechnology tended to splinter points of view as the 1980s wore on. The National Association of Broadcasters continued to play the umbrella organization role, trying to represent
10.8 Rethinking Regulation
561
the manydifferent parts of the industry, from largenetworks to tiny market radio stations. (Indeed, the National Radio Broadcasters Association, an expansion of an FM radio trade group of the 1960s, merged into the NAB early in 1986, much as had the Television Broadcasters Association more than 30 years before.) Butthe pointsof view onregulatory issues grew more disparate, and the NAB found itself criticized loudly from all directions. Specialized groups spoke up increasingly for independent stations, large stations, daytime operators, and newer media, such as cable, all of which disagreed with NAB positions at one time or another. The NAB’S position as the industry spokesman and leader was not helped any when, in June 1979, the Justice Department filed an antitrust suit against the NAB’S radio and television codes. Justice claimed that the code guidelines served to restrict the market for advertising (by limiting the amount of advertising per hour)-thus driving up costs for sponsors. After a March 1982 decision on one small part of the advertising code went against it, the NAB signed a consent decree with the government, effectively ending both the advertising and program guideline codes, which had been around since 1939 (radio) and 1952 (television). Although the demise of the codes was greeted with a sigh of relief fromthose who hadbeen skirting and violating them, there was significant negative public relations fallout from the unseemly haste with which theNAB dropped the entire idea of program standards, particularly those dealing with children’s programs. The networks, which had always relied on their own “standards and practices” offices rather than the NAB code, and many stations continued to enforce programming and advertising codes of their own. By making it desirable for advertisers to meet one fairly high standard rather than different standards for each station, the networks and conscientious stations thus prevented the anticipated flood of substandard and even harmful programming and advertising. On the other hand, although citizens’ groups such as Action for Children’s Television remained active, the desire of the networks to cut costs, and the FCC’s abdication of responsibility for content in the name of “deregulation,” led to a substantial reduction in staffing in the network standards and practices departments in the late 1980s. The Television Information Office, founded by the industryas a public relations arm in the aftermath of the quiz show scandals at the end of the 1950s (see pp. 376377 and 393-394), was eliminated early in 1989. The 1980swere not asettled time for broadcasters. Although many welcomed thefruits of deregulation, Congress made itclear that sooner or later there would be a price, perhaps in the form of rent (called a “spectrumuse fee”) for a channel. Broadcasters were frequently reminded thatthey could not have it bothways: if they were “special”because of their role in meeting the public interest, they probably should be subject to at least some generalized content-service guidelines. If, on the other hand, they were just like any other business, they should be subject to the fees that the federal government makes for use of public resources.
562Chapter
10 Challenge and Competition (1977-1988)
Broadcasting, although in the public eye, was an ever-smaller part of the larger telecommunications scene in the 1980s. Fundamental structural and service changesin the telephone industry, fed in part by the need to provide cheap and efficient computer communication networks (outside the scope of Stay 7hned),were causing far more fundamental changes tothe common carrier telecommunications industries than were changes in broadcast regulation, although the latter were more likelyto be noticed by the general public.
10.8.1 Congress Triesto Rewrite the1934Act From 1977 until 1982, Congress wasdeeply involved in its mostserious attempt thus farto review and replace completely the half-century-old Communications Act of 1934. Driven by changing technology and a belief that the spectrum scarcity argument accepted by the SupremeCourt in the 1969 Red Lion decision should be overcomeby sucha rewrite, as well as a rapidly changing common carrier regulatory scene, members of first the House and later the Senate moved through several generations of hearings and bills in what was touted as a “basement-to-attic”review of American domestic communications policy. The process began with an ill-conceived attempt by AT&T in 1976 to persuade Congress to amend the1934 act essentially to reinstate its by-then crumbling telephone monopoly status.* Initially backed by many members of both houses, the billnever came to hearing, let alone a final vote. For,despite its titleas the “Consumer’s Communications Reform Act,” the hands of special interests were all over its provisions, and itwas soon seen as far too narrow and reactionary. (A later bill was numbered S. 611-the same digits as the Bell System’s repair service telephone number.) Congressman Lionel Van Deerlin (D-California), one of an increasing number of congressmen with a broadcasting background, took over the chairmanship of the HouseCommunications Subcommittee concerned that the issues raised in the “Bell bill” needed resolution-but so did many other long-hanging controversies in broadcast and cable regulation. Perhaps it was time to reinvent the wheel. In May 1977, armed withspecial appropriation support, theVan Deerlin subcommittee staff issued an 800-page set of Options Papers outlining the current regulatory status of all services regulated by the FCC, along with the options Congress might consider in changing those relationships. Among the possible changes discussed were *The Departmentof Justice had brought suit to breakAT&T up in late1974.Even by1976,it on for years. AT&T also was troubled by a was evident that the legal procedures would drag series of FCC and court decisions that had introduced competition into long-distance service by specialized common carriers, such as MC1 and Sprint, and into the customer premises equipment market (theMCI decision of 1969 allowed others to connect to “Ma Bell’s” lines). Yet AT&T was still closely regulated and required to provide service on a near-universal basis, no matter how expensive that was to accomplish.
10.8 Rethinking Regulation
563
m Rewrites and Deregulation T h i s c h a r t c o m p a r e s and c o n t r a s t s t h e o r i g i n a l t h e p r o p o s a l s o f e a r l y r e w r i t e in bills r e q u i r e m e n t s o f t h e C o m m u n i c a t i o n s of A c1934, t 1978-1979,and t h e s t a t u sa d e c a d e l a t e r - b e f o r e t h e T e l e c o m m u n i c a t i o n s A coft 1996” of those same requirements. 1934 Act
Regulation neededto: Promote the public interest, convenience, or necessity
1978-1979 Deregulation Proposals
by 1989
“To the extent marketplace forces are deficient“
As in 1934 act
Communications Regulatory Commission, with5 members
FCC, with 5 members
Spectrum feeon alllicenses, to be used to pay for FCC, public broadcasting
Application fees forail services
Indefinite for radio:10 years for TV
7 years for radio,5 years for TV
Renewals Okay if in public interest; comparative hearingif competing applications
Lottery proceeding for competing applications with minority preferences
Comparative process intact for radio-W lottery for new services with some minority preferences
Program Regulations None: gives FCC limited discretion
Eliminate program guidelines, limits on advertising. Falrness Doctrine, ascertainment
All proposals later adopted in modified formby FCC
Political Broadcastlng Original Section315
Would continue for might be eliminated for radio. Would exempt some campaigns
Section 315, though modified, still in piace
Public Broadcastlng None: added in 1967
Eliminate CPB and set up a program endowment; ailow editorializing
CPB still in place; stations can now editorialize
Ownership Limits None: FCC can adopt; FCC set 7-7-7 in 1954
One station per market; otherwise no iimlt on number ofstations
Still one per market,but 12-12-12 nationwide
Cable Regulation None
Would eliminate then-existingFCC rules, require cable systems to get consent of broadcasters before carrying signal
Most FCC rules gone; cable enjoys retransmisslor consent under copyright act. 1984 cable act largely deregulatory
The Regulatory Agency FCC, with 7 members
Fees No provision
License Terms
3 years maximum (renewable)
TV.
almost total deregulation of radio content requirements, different funding mechanisms for public broadcasting, and ways of having licensees pay for the right to use the spectrum. The papers were designed to stimulate and crystallize thinking, one staff member even assuring a group of academics that the committee would consider all ideas, even “crazy ones.” Instead, they often stimulated fear and opposition. A year later, Van Deerlin introduced H.R. 13015, hopefully titled the “Communications Act of 1978.” Among other things, the huge bill, which
564
Chapter 10 Challenge and Competition (1977-1988)
was designed to supersede the 1934 act, called for replacement of the FCC with a five-member Communications Regulatory Commission, which would regulate “only to the extent marketplace forces are deficient” and would thus do away with the “public interest, convenience, and/or necessity” standard in the existing legislation. For electronic media, the bill envisioned the total deregulation of radio, no federal regulation of cable (leavingthat to state and local authorities), lengthening the television station license period from three to five yearsand extending it to “indefinite” after a decade, no more multiple ownership of stations in the same market (though “grandfathering” of the many existing radio-television combinations would be allowed), and limiting of one person’s or firm’s ownership to no more than 10 radio and 10 television stations (instead of the existing 7-7-7limit, or 21).To replace the Fairness Doctrine, the billproposed a more general “equity principle” thatcalled for balanced treatment of controversy but did not require coverage ofissues in the first place. The “equal-time” political broadcasting requirements would be eliminated on radio for national and statewide races. Itsounded too good to be true-and there was a kicker, which broadcasters instantly rallied against. All licensees (not just broadcasters) were to pay a spectrum license fee to operate, the funds going to defray the cost of regulation and to serve public, minority, and rural telecommunication needs. Extensive hearings in Washington’sJuly heat received testimony from a divided industry anda divided FCC-several commissioners were firmly against the radical changes proposed. Van Deerlin was forced to agree that the rewrite needed rewriting. In March 1979,Van Deerlin introduced H.R. 3333,which carriedbroadcast deregulation even further. It provided that there wouldbe no enforcement of Fairness Doctrine and EEO requirements for radio. In addition,the bill proposed indefinitelicenses for the auralbroadcast services and elimination of comparative hearings and substitution of random selectionlotteries-for new stations. There would be no radio ownership rules, and public stations would beallowed to carry some commercials. But the new bill still contained the spectrum licensefee as a trade-off. And Broadcasting editorialized that withthe new rewrite, “Van Deerlin threatened to steal the all-purpose security blanket”-the 1934 act-which, despite its faults, the players clearly understood. Other critics attacked the lottery provision, suggesting that giving a license to the luckiest rather than thebest qualified was a concept that should stay in the Las Vegascasinos. (Another proposal, be auctioned off, was met with not in the bill, that proposed that licenses approval only by those withlots of money.) By then, as the subcommittee headed into further weeks of hearings, positions had hardened and there was clearly too much controversy and disagreement amongand within the many industries involved. Van Deerlin thus reluctantly agreed that his staff would concentrate on cornmon carrier matters, which seemed to need the most fixing, rather than a complete rewrite. After the 1980 elections, the focus shifted to the Senate. Van Deerlin, surprisingly, had lost his bid for re-election (his opponent said the congressman was away in Washington doing his best to raise constituents’
10.8 Rethinking Regulation
565
telephone bills!). Representative Timothy Wirth (D-Colorado)took over the House subcommittee chair. The Senate bills of the next two sessions focused mainly on common carrier matters, and though S. 611 and S. 622 did drop the call for a spectrum fee while proposing longer broadcast license periods, they still called for a lottery for new licenses and for some regulation of cable. Thesebillswerestalled in committee andwent nowhere. A final attempt in theHouse, delayed for more than a year while the subcommittee held extensive background briefings with experts to hone its knowledge, came to grief under lobbying pressure from AT&T. While no newcomprehensive act resulted, the rewrite process was not a total waste of time and energy. Members of Congress were now more knowledgeable about communications issues. While the initial rewrite had been radical in its departure from existing institutions and practices, subsequent versions looked more and more like the existing FCC and national telecommunications policy. Congress realized that without any clear industry agreement onthe makeup of a replacement, the existingact, amended as needed, would have to continue to serve. Congress focused as well on FCC membership and practices. Several commissioners who served in thisperiod, among them chairman Ferris and commissioners Fogarty and Dawson, had moved up from congressional staff jobs. (Despite the fact that the President may nominate anyone as a commissioner, the chief executive often uses such posts as a way of gaining congressional favor.) That certainly helped Congress keep an eye on the commission! Further, several of the provisions in the defunct rewrite bills did see the light of day. A massive budget reconciliation bill in mid-1981 slipped in an extension of broadcast licenses from three years to five fortelevision and seven for radio-something long sought by the industry. Cable was largely deregulated in 1984 (see pp. 468 and 574). But the 1980s are perhaps best seen as a time of increasing tension between Congress and the FCC. Mark Fowler frequently took his strong ideological views to the Hill, where they did not always sit well with those skeptical of his reliance on marketplace regulation. He appeared to flout congressional interests-as when the commission proposed elimination of the Section 315 political broadcasting provisions dear to all candidates, particularly incumbents. He seemed unwilling to compromise with Congress until forced. The tension came to a peak in 1982 over President Reagan’s appointment of Stephen Sharp, the commission’s general counsel, as a commissioner. Fowler strongly urged the appointment, angering several in the Senate who thought the seat had been promised to someone else. Sharp got his seat-but the commission was reduced fiom seven to five commissioners (now serving five-year terms), andSharp served for less than a year. In 1983, congressional displeasure with the FCC’s generally independent policy direction led to a change in the commission’s legal status from a permanent government agency to one that hadto be, in effect, recreated every two years! The idea was to get the FCC’s attention and force it to toe the congressional line more closely. Fowler’ssuccessor in 1987,former White House personnel
566
Chapter 10 Challenge and Competition (1977-1988)
officer Dennis Patrick, seemed more conciliatory in manner butjust as confrontational and ideological in intent. When the FCC unilaterally declared in mid-1987 that it would no longer enforce the Fairness Doctrine (see pp. 567-569), members of both houses angrily sought ways to“punish” the commission and to insert their endorsement of the doctrine in a “veto-proof’ bill so that President Reagan or his successor would have to approve it, a scenario reminiscent of congressional ire at then-chairman Fly in the 1940s. 10.8.2 Broadcast Deregulation
LBIsrs
A content analysis of material written about American broadcasting in the decade 1978-1988 would showderegulation as one of the most discussed topics. The move to lift some requirements and restrictions from broadcasting that many rules were honored had been comingfor a long time. It was obvious in the breach rather than the observance and that far toomany waivers and exemptions were granted. If rules were not enforced, they were useless. Further, for reasons already exploredin this chapter, the place of broadcasting amidst No longer was radio or television its rising competitors was clearly changing. the only gamein town. The introduction of new media, especially cable,that were unfettered by the limitations of the electromagnetic spectrum, increasingly calledinto question someof the basic underpinnings of past regulation. Scarcity of channels was politically-if not physically-removed from the argument. In an administration that showed little sign of defending public ownership of natural resources and parks, the idea that public ownership of the airwaves justified regulation was laughable. A step in the right direction, from the FCC’s point of view, came in a March 1981 Supreme Court decision that held that the commission need not become involved in decisions over which radio music or talk formats might best serve a given market. The court opinionresolved a controversy 1970s, culminating in a 1979 lower court dethat had rumbled through the cision holding that theFCC did have to play a role when a station wanted to switch away from a “unique” format desired by some members of the public in a given market. The Supreme Court held that theFirst Amendment clearly left such decisions to station owners,not regulators. More widely seen as the real watershed of deregulation, however, was the elimination of four requirements dealing with radio proposed late in 1978 during the Ferris regime. The FCC had initially planned to limit the deregulation to major markets in which many stations competed. By the time the FCC held two days of oral hearings in September 1980, the plan had been expanded to cover all commercial radio stations and hadbecome highly controversial. Critics felt the FCC was abandoning its proper role as an overseer of the airwaves. Some were misinformed-hundreds of letters expressed fears that religious, agricultural, or other service programming might disappear if no longer “required” (it never had been).
10.8 Rethinking Regulation
567
The FCC’s 1981 decision dropped “ascertainment,” which required applicants to go through a complicated process to determine or ascertain just what the “city of license” (the community where the station waslocated by termsof its license) neededor wanted from its radio stations,especially in publicservice programming, Further, stations would nolonger have to maintain detailedprogram logs and keep them openfor public inspections. Those complaining about radio content would now have to keep their own records to back up complaints, making it extremely hard for them or the commission to determine if the stations had indeed been operating in the public interest. And the FCC did away with two “processing guidelines’’ that guided staff decisions on applications:no longer would stations have to promise even minimal public service programming or specify maximum amounts of advertising to be aired. Bothwould be left to the as-yet-unproven conceptof “marketplace competition.” The commission had come a long way from its abortive 1963 attempt to limit the amount of advertising content on the air! After the old rules were lifted (and similarly abandoned for commercial television and public broadcast stations in mid-1985), the FCC retained but two program areas of concern: political programmingand obscenity. Many other attempts at reregulation and deregulation followed, most of them dealing with control of industry ownership, entry, and structure (see pp. 571-577). Overshadowed were hundreds of technical changes consolidating duplicate requirements and the like. But it was not quite that easy. “Reregulation,” not “deregulation,” was still the buzzword for several years. Broadcasters, initially pleased at ascertainment’s elimination, discovered that beginning in 1985 they would have to file a quarterly “problems and programs” list, specifying key community problems and the programs that were broadcast to deal in some way with those problems. Gone were the old but fairly specific guidelines that broadcasters could easily meet and know the FCC would not bother them. Now, managers had to make daily determinations on coverage of public affairs, knowing such a listing had tobe prepared four times a year. Getting the most attention in the mid-l980s, however, was a growing FCC campaign to end the Fairness Doctrine. FCC chainnan Mark Fowler had hinted at such an action in his first package of proposed amendments to the 1934 act submitted to Congress late in 1981. Specifically, he argued that Congress should eliminate Section 315 and Section 312(a) requireof the value of broadcasting ments on political broadcasting. Congress, aware to its own campaigns, demurred. The commission began to build a record, arguing the fact that the huge and growing number of broadcast stations, plus additional services, made the 1927 political broadcasting clause and 1949 Fairness Doctrine no longer necessary. (Afurther supporting factor was that an ever-growing proportion of the population now lived in or near large cities, weakening congressional interest in rural areas with few stations.) While most citizens’ groups felt the Fairness Doctrine wasthe only entrance
568
Chapter 10 Challenge and Competition (1977-1988)
Fall of the Fairness Doctrine Compare these quotes with those o n pages 464465, which describe the “Rise of the Fairness Doctrine.” These excerpts from FCC inquiries and decisions, several court decisions, and a failed legislative attempt to codify thedoctrine show t h e changing thinking about the doctrinein the 1980s in the face of an increase in stations and competing services-andsubstantial shifts in regulatory ideology.
m
June 9,1969 “If experience with the administrationof these doctrines indicates that they have the
net effect of reducing rather than enhancing the volume and quality of coverage, there will be time enough to reconsider the constitutionalimplications”-Supreme Court in Red Lion Broadcasting Co. v. FCC, 395 U.S.367, at 393. July 2,1984 “The prevailing rationale for broadcast regulation based upon spectrum scarcity has come under increasing criticism in recent years.. ..We are not prepared to reconsider our longstanding approach without some signal from Congressor the FCC that technological deve/opments have advancedso far that some revision of the system of broadcast regulation may be required.” Supreme Courtin FCC v. League of Women Votersof California, 468US.364, at376-377, footnote 11, emphasis added.
August 7,1985 ”Based on the voluminous record compiled in this proceeding, our experience in administering the doctrine and our general expertise in broadcast regulation policy determinations, we believe that asa policy matter the fairness doctrine no longer serves the public interest.. Notwihstanding these conclusions we have decided notto eliminate the fairness doctrine at this time. The doctrine has been a longstanding administrative policy and a central tenet of broadcast regulationin which Congress has showna strong . .interest.”-FCC, Report onGen. Docket No. 84282, “Inquiry into ...Fairness Doctrine Obligations of Broadcast Licensees,” 102 FCC 2d 145, at 246-247.
..
.
September 19,1986 “We do not believe that the language adoptedin 1959 made the fairness doctrine a binding statutory obligation; rather it ratified the commission’s longstanding position that the public interest standard authorizes the fairness doctrine.The language, by its plain import, neither creates nor implies any obligation, but seeks to make it clear that the statutory amendment does not affect the fairness doctrine obligation as the Commission had previously
ticket for their opinions to be heard over the air, a number of other groupssuch as the Radio-Television News Directors Association (RTNDA)-felt that the doctrine actually reduced broadcast controversy because station owners preferred to eliminate all controversy rather than donate time for mandated rebuttals. At first, under somepressure from Congress and other critics, the FCC backed off any attempt at outright repeal, given the general belief that Congress had codified the doctrine into law with its 1959 amendCourt had endorsed this with the ments to Section 315 and that the Supreme 1969 Red Lion decision (see pp. 463-467). But in 1985, the commission sent a major policyreport to Congress arguing forrepeal. Facing little likelihood of action there, in August 1987 the FCC took the final step and unilaterally eliminated the Fairness Doctrine, using as a vehicle a fairness case remanded to it by the Court of Appeals for further action (see box above). Despite the trend to deregulation, enforcement of existing rules and regulations continued. The most controversial decisions concerned RKO General, a group owner of radio and television stations and a subsidiary of General Tire.In mid-1980, the FCC denied renewal of three RKO television
569
10.8 Rethinking Regulation
applied it. The words employed by Congress also demonstrate that the obligation recognized and preserved was an administrative construction, not a binding statutory objective.”-U.S. Court of Appeals for the District of Columbia Circuit, Telecommunications Research and Action Center v. FCC,801 F2d 501, at 517.
April 2,1987 “(7) For more thanthirty years, the Fairness Doctrine and its corollaries, asdeveloped by the Federal Communications commission have enhanced free speech by securing the paramount rightof the broadcast audienceto robust debateon issues of public importance; and . . .(8) the Fairness Doctrine (A) fairly reflectsthe statutory obligationof broadcasters under th[e] Act to operate in the public interest, (B)was given statutory approvalby the Congress . .in 1959, and (C) strikes a reasonable balance amongthe first amendment [sic] rights of the public, broadcast licensees,and speakers other than owners of broadcast facilities.’’-Last two “findings“ of H.R.Bill 1934, 100th Cong., 1st Sess., proposing new Section 315(a) to the Communications Act, passed by Congress in June 3,1987, but vetoedby President Reagan June 19.
.. .
.
August 6,1987 W e find that the fairness doctrine chills speech is not andnarrowly tailored to achieve a substantial government interest. We therefore conclude.. .that the fairness doctrine contravenes the First Amendment and thereby disserves the public interest.. .Accordingly, We .Conclude that the Constitution bars us from enforcing the fairness doctrine”-FCC, Memorandum @inion and Orderin Complaint of Syracuse Peace Council against Television Station W H ,2 FCC Rcd 5043, at 5057-5058, paragraph 98.
.
..
October 11, 2000 The U.S. Court of Appeals for the District of Columbia Circuit orders the FCC to “immediately repeal” the last vestages of the fairness doctrine: the political editorializing and personal attack rules.
station licenses, citing serious rule violations and misrepresentation to the commission. On appeal, one of the denials was upheld (for a Boston television station), while theothers were thrown, together with 1 2 remaining licenses, into a massive legal process while the commission tried to determine K O ’ s fitness to be a broadcaster. Dozens of applicants vied for the licenses in question. In mid-1987, a tentative decision found RKO unfit and recommended lifting of all RKO licenses. Eventually, the FCC allowed RKO to sell off the remaining stations, but at fraction a of their normal worth. The case illustrated one of the worst examples of length and cost of regulatory proceedings and added to the industry and congressional pressure for substantial streamlining of FCC investigative and legal procedures.
-
10.8.3 Technical Standards
Until the 1980s, the FCC played a consistent and essential role in determining, testing, and enforcing technical standards for broadcast services. This
570
Chapter 10 Challenge and Competition (1977-1988)
role had developed in part because of the limited technological knowledge about radio when the 1927 and 1934 acts were drawn up, Technical standards for equipment and broadcast signal quality were needed to ensure uniform (or at least minimum) quality and as a support to interference-free allocation of the spectrum. This position often helped establish an industry, as, for example, in the shaping of modern television during the 1940s (see pp. 253-256 and 318-331). But during the Fowler regime at the FCC, this role of the commission as a national technical overseer was strongly questioned for the first time. In August 1981, the commission did away with the fist-, second-, and third-class radiotelephone licenses, which had been issued for generations as indicators of varied levels of expertise for station engineering personnel, replacing them with a new “general” license. The commission then blandly announced that high technical quality was still required of all station licensees-but how they ensured that quality was going to be up to them in anera of shrinking government resources. The next stage in thecommission’s departure from the setting of technical standards came about when itwas faced with establishing standards for AM stereo broadcasting. Not a crucial decision in itself (except to AM station owners, who were hoping stereo would help counteract FM’s growing success in attracting large audiences), it became a watershed in FCC technical thinking. At first, after several years of consideration, the FCC in April 1980 selected, by a vote of 540-2, one of five proposed standards then in competition for AM broadcasters desiring to transmit stereo signals. Radio engineers ridiculed the technical basis for the decision, and the commission withdrew itshortly thereafter. Two years later, by thena very different body in both membership and political thinking, the FCC voted 640-1to allow AM stereocasts, but without selecting one of the five systems. The commission claimed that themarketplace would do the selecting, though there was some doubt even as to what the marketplace was in this case (radio manufacturers? broadcast stations? the general set-purchasing and listening public?]. The FCC also argued that by not selecting a system, it was avoiding years of delay that would be caused by legal challenges. The result? By the late 1980s, AM stereo was only a minor factor in the AM business, with perhaps 10 percent of all stations using one system or another (by 1989, only two systems were left, and theMotorola system was winning a de facto victory, especially after General Motorsselected that system for installation in its cars). Despiteseveral revisits to the issue, the FCC stuck by its guns, claiming that government had nobusiness making such a decision, both for lack of money and facilities to do so and because of the dominant deregulatory philosophy, which said that this wasnot a fit subject for regulatory action. The AM stereo precedent was applied in March 1982 when the commission approved a low-power television service, with few restrictions on it save a strict requirement not to interfere with full-power television stations (a necessary rule in a political sense, since the viewers of the existing full-power stations would be sure to generate congressional action if
10.8 Rethinking Regulation
interference developed). In June of the same year, in approving a system of S (see p. 487), the FCC set no technical rules, merely requiring ce with other services and even said PBS “wasn’t broadca§ sion had the further effect of eliminating any early possibility of usi 6-4 98) broadcast to introduce a system of HDTV lined to pick sp to American homes. In d a d s for teletext allowing television stations to transmit te long as they did not cause interference with other signals. stereo, the commission in 1984 decided to “protect” an industry-agreed-o standard but did not, again, specifically require one approach. It was clear that in the future this FCC would generally approach any the assumption that no standard would be selected other ment that the new service not interfere with older services and even that practical rule was not sacrosanct. hile deregulating at home, the FCC, other government age epatrnent of State and NTIA), and private telecom manufact~erswere playing a far more active role in ard-setting bodies such as the International Standards nternational Consultative Committee for Radio, both , the latter a part of the International Teleco~munication ing trade in consumer and industry electronics, worldwi ticipation in deve reements on standards became progress important in the ifferent countries often rallied b e ~ i n d ndous potential profits to be made pened with color television (see p. 476). France, Britain, an backed conflicting standards for teletext early in the 1980s9while Europe (and, belatedly, the United States) were squaring off on st systems of high-definition television later in the decade (see pp. 4
Fundamental policy questions of market entry and of e across services faced the FCC throughout this period, o new services made ssible by new technologies. In a etition, the commission general1 s at the same time it largely dereg came caught in the middle of the sw 1circle in less than 20 years (see page important question, however, dealt with a class of peo s There was little isa agreement by the 1 9 7 ~ that owned far fewer media outlets than would be suggest of the nation’s population. In. response to petitions fr and minority groups, and in an attempt to increase in the hands of members of minority groups, in
572
Chapter 10 Challenge and Competition (1977-1988)
to two new methods of transferring licenses. If a station were sold to a minority-controlled licensee, the seller would receive a tax certificate that would cut or delay his or her capitalgains tax. If an existing station was in trouble withthe commission, that station couldchange hands (prior to the start of any formal FCC hearing on theproblem) in a “distress saleto a minority group” for no more than 75% of the fair market price of the property. In April 1979,a Rhinelander, Wisconsin, television station was the first to transfer under the distress sale rule. In 1982,the policy was extended to members of minorities whohad controlling roles but as little as 20 percent equity interest. By early 1989,160stations hadpassed into minority hands by means of tax certificates alone. In 1986,the commission began to reconsider the constitutionalityof such minority preferences. It initiated a public inquiryand suspendedgranting of both taxcertificates and distress sales pending a hearing. This angered Congress, which in proceedings for the FCC’s 1987 appropriation successfully demanded that the inquiry beabandoned and both policies reinstated. Facing continued demand for more broadcasting stations from all sides (except from existing stations and theNAB, which wondered if more were always better), the FCC during this decade examined many ways to squeeze more traditional broadcast operations into theexisting spectrum space allotted for each service. For AM, the FCC considered, approved, and thenreconsidered and rejected a change from the long-existing 10 KHz channel bandwidth to 9 KHz spacing, as is used in Europe and Asia. This change might have allowed 400 or more additional AM stations to squeeze onto the air. Pressure from existing AM stations fearful of the costs of the change, as well as of more competition, killed the idea in 1981.In another action, Western Hemisphere spectrum allocation changes, agreedto in meetings of the International Telecommunication Union beginning in 1979,called for extending the upperlimit of the AM band from 1605 to 1705 KHz late in the decade, the first such expansion since 1952 (see box,p. 95).Although this band was used by broadcasting elsewhere, its usein theUnited States first required the moving of police transmissions to another band. The first of several hundred new stations in the United States and Canada was expected to be on the air by 1990. Likewise, the squeezing of more stations into the FM band was the result ofFCC Docket 80-90 (the numbers indicated the 90th proceeding initiated during 1980),which may permit as many as 800 new FM stations. All of this expansion would be made possible primarily by improved-but unproven-technology and interference-reduction techniques. More controversial have been attempts to expandthe number of television stations on theair. For many years, the commission had attempted to solve the shortage of television channels by planning to “drop in”as many as several hundred allotments into the assignment table on a case-by-case basis. Naturally, existing broadcasters in those communities objected. The debate was vigorous, with some government agencies supporting the idea television broadcasting (to take pressure off those who wanted to enter the
10.8 Rethinking Regulation
573
business without the cost of buying an existing station) and others opposing it. Eventually the plan fizzled, with only four such VHF drop-in channels addedin a 1980 decision. While initially the cause of less debate and more promise, the FCC’s creation of a low-power television (LPTV) service described on pp. 503504 led to more headaches in the early 1980s as the application process bogged down, Part of the problem was that this was the FCC’s first serious attempt to get a new service on the air with a minimum of regulatory paperwork. The commission’s approach tototally new services now was generally quite simple-when in doubt about regulation, don’t. Perhaps the best example from the mid-1980s was the short life of direct broadcast satellites (DBSs). First seriously proposed in a detailed six-volume filing by COMSAT’S subsidiary, Satellite Television Corporation, to the FCC in December 1980, the notion of DBS briefly took the policy world by storm. Here was a potential system that seemed to suffer few of the limits of terrestrial broadcasting; would bring in a new player (thus presumably adding to the diversity of programsources),andwouldspecifically be aimed at underserved rural, and later innercity urban, viewers. Once the satellite was in orbit, most costs, except for programming, would be paid by theconsumer. The FCC moved with theregulatory speed of light, and ina series of decisions over the next twoyears decided to move an existing microwave service out of the 12.2-12.7 GHz (gigahertz-one GHz = 1,000 MHz) spectrum space assigned by international agreement to DBS. FCC rules were generous-applicants could decide whether they wanted to be regulated as broadcasters or as common carriers. There were no ownership, financial, or technical regulations. Obviously, there would be no requirement for local service. The only requirement laid on themany applicants (more than a dozen by 1982) was to show“due diligence” in planning and ordering satellites and launch capacity. But as “due diligence’’ deadlines approachedin 1982 and 1983, the DBS balloon quickly sprang a leak. None of the prospective operators had resolved the old problem of programming-what to provide potentialviewers that they did not already have. Further, when all the numbers werein, the costs of satellite design, launch, and operation quickly surpassed any estimates of revenue, By 1983-1984, DBS was back to the blue sky category-for an indefinite time. But no one could blame the FCC for regulatory delay in this case! Of course, whether the public interest was best served by this concentration of FCC resources and attention is opento argument. (See also pp. 487-488). When other prospective technologies were proposed in the 1980s, the commission again moved quickly and provided few regulatory impediments. Teletext services were authorized with few restrictions of any kind. MMDS grew out of a commoncarrier service first set up in the early 1960s (see p. 504). Subscription television ( S W ) , the existing over-the-air single-channel pay system originally approved in 1968, also benefited from the FCC’s
574
Chapter 10 Challenge and Competition (1977-1988)
retreat from regulation. S W had languished in a morass of regulatory red tape so soggy that no stations went onthe air until 1977 (see pp. 416-417). Beginning in 1979,the S W rules were slowly unraveled to allow more flexibility in station assignment and operation. Rules eliminated over the next several years included those allowing no more than one STV station to a market, a minimum of 28 hours of “conventional” (nonsubscription) programming per week, and a special application process. By 1983-1984,regulation was no longer impeded SW’s future. The problem lay with SW’s single-channel limitation and, once again, the need for programming. More complicated and dragged out, and withthe courts playing a major role, is the story of the FCC’s deregulation of cable television, partly summarized in the boxon page 468.This story had more positive results for the service in question. Under pressure from several groups, including recommendations from Congress and independentbusiness groups, the FCC had begun to re-examine its cable policy as early as 1975,just three years after issuing so-called definitive regulations clearly restricting cable to ancillary status, behind broadcast television. In March 1977,an appeals court decision overturned many of the FCC’s pay-cable rules as unduly restrictive or protective of broadcasting. After 1977,many relatively minor restrictions were lifted by an FCC steadily moving toward a lower regulatory profile. In the Summer of 1980,the FCC deleted two important and related rules that had limited the broadcast signals cable systems could carry. In 1984,after years of hearings but little action, Congress passed the Cable Communications Policy Act, which added a new title (Title VI) to the 1934 Communications Act. The cable act, the first federal legislation devoted to the medium, was a clear victory for the cable business. It generally limited regulation to a few local rules and lifted virtually all controls on cable programming and subscription rates, as well as limiting fees to be paid to cities and other franchising authorities-to their dismay and annoyance. The National League of Cities was the clear loser in this law, while the NCTA and the NAB struck an uneasy truce under the congressional gun. While some provisions called for various types of local “access” channels for school, government, and public use, many argued-correctly-that those requirements would be challenged on thebasis of the First Amendment. TheFCC and the courts also chipped away at the last vestiges of local control by allowing a second cable operator to come into a community to offer competition (called “overbuilding”) and by making itvery difficult for a municipality to refuse to renew a franchise when its term was up. The longest-lasting FCC headache with cable concerned the must-carry rules, which soon became entwined with the “syndication exclusivity” (syndex) rules applied to television stations. First established in 1965,the must-carry rules required cable systems to carry all “significantly viewed” television stations within their system’s coverage area. The rule, which dated from the period when cable was seen as supportive of broadcasting, was designed to ensure local stations equal access to viewers who might be
10.8 Rethinking Regulation
575
cable subscribers, There was little controversy over this requirement, even from cable operators, until the late 1970s and early 1980% when the number of cable networks mushroomed (see pp. 514-517). The increase in cable networks put pressure on older systems with limited channel capacity, which hadto carry broadcast signals in place of much more profitable paycable or other cable networks. Further, with deregulation of other content requirements, and the 1984 legislation, the must-carry rules seemed to many tobe out of sync with thechanging view of cable. In the1985 Quincy Cable TV Inc. v. FCC decision, the Court of Appeals for the District of Columbia Circuit held that the must-carry rules violated the intent of the First Amendment by limiting cable system program choice because of an ill-supported FCC fear of cable’s impact onbroadcasting. In 1986, after considerable wrangling among broadcast and cable industry trade groups, the FCC established a new must-carry rule. The new rule was to run for five years and was supposedlydesigned not toprotect broadcasters but to maximize the viewer’s variety of choice of channels. The newapproach still did not survive court review-late in 1987, the revised rules were struck down again, on largely similar grounds, by thesame court. Broadcasters, especially newer independentstations and public broadcast outlets, were fearful about how long they would continueto be carried on nearby cable systems. During the same period, the broadcasters lost almost every court battle to prevent cable from carrying superstations and other outlets that also were running the syndicated programming that now cost those stations so much-and that originally had been sold with theassurance that no other station could air it in that community. The sniping grew intense, with both sides looking to the courts as well as the commission. Onedevelopment that wasparticularly annoying to broadcasters, who had spenta great deal to make their channel numbers well known, was the arbitrary “move” of many stations to different channels on cable with unfamiliar numbers. Clearly, the pendulum hadswung to the other side-and it was cable that seemed tobe winning every fight against the older medium of on-the-air television in every forum. 10.8.5 Regulating Competition laAlmr
With the FCC’s structural rather than behavioral or content approach to regulation, questions of ownership, mergers and acquisitions, and concentration of control arose frequently in this period. To the commission, at least until theearly 1980s, constraints on themedia’s “urge to merge” were a primary means of attempting to preserve some diversity in points of view in the local community. (The FCC never really tried to come to grips with determining if there really was any relationshipbetween diversity in ownership and diversity in content.) But the economic pressures supporting increased concentration, especially the ever-higher costs of buying and
576
Chapter 10 ChallengeandCompetition(1977-1988)
programming for stations and systems, led to many changes in the FCC’s ownership rules in the 1980s. The FCC’s rule banning all but existing newspaper-broadcasting crossownership, promulgated in 1975 (see pp. 470-471), came under court review late in that decade. The Court of Appeals for the District of Columbia Circuit overturned the FCC in the Spring of 1977,contending that if crossownership wasbad, as the court felt the commission’s record suggested, all cross-ownerships in the same market should be divested. Ironically, although this court tended to have a conservative bent, this was the same conclusion sought by President Franklin D. Roosevelt in the 1930s in an attempt to counter the power of newspaper owners who tended to oppose him. The industry faced a draconian situation: forced breakup of several dozen station-newspaper combinations across the country. On appeal in 1978,the SupremeCourt ruled 5-to-4 that theFCC’s original plan of forcing the divestiture of only a select few egregious cases was preferable. Most existing combinations could continue-at least until their sale, when a breakup would be mandatory. Cable cross-ownership rules, set up in1970,also were examined in the 1980s.The economic tension between telephone companies and cable systems was kept alive by the debate over an FCC rule, carried over into the 1984 cable act, that prevented telephone companies from operating cable systems in their franchise area. The telephone companies argued that cable would never get to some ruralareas unless telephone companies, with their engineering skills and tradition of “universal service,’’ supplied it. But many feared the concept of a single company controlling both telephone and cable lines into homes and remembered the bitter battles CATV systems had to wage in order to secure space on telephone poles for their wires. For somewhat similar potential conflict of interest reasons, the ban on co-owned and colocated television stations and cable systems stayed in force. By 1988,the FCC was investigating whether cable cross-ownership rules could belifted, arguing that cable as amature medium could operate and expand withless structural control. Rules limiting regional concentration of broadcasting stations faded as a result of deregulation. Rules limiting any single licensee to no more than one VHF station in the top 50 markets (a rule never enforced while on the books), regional concentration rules, and even limitations on “trafficking” [sale of a license in less than three years, considered to be prima facie evidence that the owner was interested more in buying and selling than in serving the public) were all swept away by the Fowler FCC-and helped contribute to the merger and takeover activity of the mid-1980s discussed earlier in this chapter. The numberof stations any one entity should be allowed to own in the nation hadbeen argued for half a century. For some three decades, the FCC rule onbroadcasting was to allow no more than 7 in each service (AM, FM, and television-but only 5 of the television stations could be on VHF), for a
10.8 Rethinking Regulation
577
possible maximum of 21. Even though only one licensee actually did acquire the maximum,in 1985 the commission raised that limit,first forradio and then for television, to 12 stations of each type. (The television limit, however, had the additionalrestriction that nomore than 25 percent of the nation’s population may be served by a given licensee, even if reached with fewer than 12 stations,) Thecommission acted after failing to get Congress to agree that no ownership limits whatsoever should be imposed on radio. Furthermore, Congress would not support a commission proposal to drop all ownership limitsby 1990. On the other hand, noneof the newer media had ownership limits. LPTV, DBS, and other broadcast services established in the 1980s had no artificial or noneconomic ownership ceilings. The motion picture industry, among others, constantly pushed the FCC and Congress to set up broadcast-comparable ownership limits on the number of cable systems or subscribers any one MS0 could control (see Appenlimiting ownership of dix C, Table 9-D). But by 1988, there was still no rule either cable systems or cable networks. One cable venture did run upagainst antitrust law, however. In 1980, Getty Oil and four film studios (Columbia, MCA, Paramount, and 20th Century-Fox) agreed to cooperate in a new venture called Premiere, which would compete with HBO in the thriving pay-cable market. The film studios were unhappy with what they felt were low rates paid by HBO, and thus each agreed to supply a nine-month exclusive license for its films to be shown on Premiere. Announced in April, the venture was in trouble s i x months later when the Department of Justice filed suit to halt it, arguing that Premiere would be a restraint of trade. Premiere initially continued planning, but a New Year’s Eve injunction to stop its planned start-up two days later killed the venture. 10.8.6 Regulating Rights
The post-1976 period was a tumultuous one in several areas of law affecting media’s relationship to individual rights, as reflected in copyright, libel, and obscenity legislation and litigation. Feelings that the media had become too big and intrusive clashed with beliefs of those who felt that First Amendment freedoms were being threatened. Only a few highlights of a contentious period of often confusing trends canbe noted here, because the courts became quite inconsistent and the number of law cases involving the media expanded to the point whereseveral publishing services now index and abstract them. ?tvo-thirds of a century after its predecessor, a new copyright act finally passed in 1976, to be effective at the beginning of 1978 (see p. 469). It quickly came under pressure from constantly changing technology-and some old controversies as well. The act took into account, said its authors, both cable and broadcast interests. Cable would now have a “compulsory
578
Chapter 10 Challenge and Competition (1977-1988)
license” right to carry any broadcast signal without having to ask permission or pay the station directly. In return, cable systems had to pay a copyright royalty, based on cable system revenue and thenumber of distant signals carried. Congress established the Copyright Royalty Tribunal to set the royalty rates, collect the fees, and decide how they should be allotted. Each year, the collection and payout decisions were subject to legal appeals and dragged-out proceedings. Broadcasters said that thefees paid were far too low given the value of the programming carried, while cable systems claimed that broadcasters were being given an expanded audience at no cost to them. Pay-outs typically took three to four years, given all thelegal hassles-and most of the money wound up in the pockets of the motion picture production companies. A decade later, Congress did away with the cumbersome royalty tribunal process altogether. Another hotly contested question of competing rights concerned the authority of home videocassette recorder owners to record material from broadcast and cable channels. Part of the issue was resolved in the 5-to-4 Supreme Court decision in January 1984in the “Betamax” (Universal Studios v. Sony) case. After a highly unusual two sessions of oral argument, the court ruled that therecording of material off the air for private home usage was not a violation of the filmmakers’ copyright. The court held that most recording was for time-shifting purposes, not for any money-making reason, and demonstrated thereby an awareness of the political furor that would have resulted had it decided the other way. (Delays in litigation make a difference: a year earlier, only half as many VCRs were owned by the public, and the Supreme Court’s hands would not have been so tied.) The film industry, later joined by the music business, turnedto another forum and urged Congress to amend the Copyright Act to require those selling VCRs and blank tapesto collect a small royalty fee to be turned over to various copyright holders. This proposal did notget very far, since much blank tape is used for camcorder making of home movies and recording of other noncopyright material. A related concern by the mid-1980s was the right of satellite-delivered program services to protect their signals from unauthorized reception. Led by HBO in January 1986, cable networks began to scramble their satellite signals to prevent backyard television receive-only antenna owners from getting programs free. The commercial television networks, for various reasons-including the embarrassment of unplanned, unscripted, and incomplete “back channel” transmissions designed only for communication with affiliate stations being seen by the public-also started to scramble. Sales of the ever less expensive backyard dishes, which hadbeen running in the tens of thousands per month before scrambling began, dropped sharply as theonce free signals disappeared intoa haze of electronic noise. Owners of backyard dishes descended on Congress demanding access to the satellite signals, and a few highly publicized incidents of breaking briefly into network signals with signs of protest highlighted the argument.
10.8 Rethinking Regulation
579
By 1989, however, nearly all satellite-delivered cable services had scrambled their signals, though many wouldprovide service to individual homes equipped with decoder boxes for a monthly fee. Sales of backyard and rooftop dishes began to move upward again. Although this development was encouraging to those touting DBS, it was recognized that there was a vast difference between access to one or a few DBS program sources and access to more than a hundred satellite transponders-even if the equipment one had to buy for the latter was large, unsightly, complex, and made the neighbors complain of zoning law violations! One of the first legal issues faced by radio broadcasters in the 1920spayment for music usedon the air-was still contentious six decades later. Every three to five years, as contracts from ASCAP and BMI came up for renewal, committees representing the radio andtelevision stations wouldargue that royalty rates demanded by themusic-licensing agencies were too high, or that television stations were hit unfairly when forced to buy blanket music licenses covering thousands of songs just to get the rights to use a few bits of sound track or theme music. A March 1985 Supreme Court decision held that such blanket licensing for television stations did not violate antitrust law. The negotiating process usually managed to convince broadcasters that they hadfought successfully, but thebasic tension between the music and broadcast industries remained. Countless times in the late 1970s and into the1980s, people famous or unknown sueda broadcast station, cable system, or network for harm, real or imagined. Most of these cases alleged libel-that the person’s reputation had been harmed by broadcast of some falsehood. The networks and stations fought back vigorously, generally preferring to fight rather than apologize or voluntarily pay damages. As the law of defamation, and that of privacy, grew ever more complicated, the only sure thing that could be said was thata lot of lawyers were getting rich. Two of the more widely discussed cases resulted from programs aired on CBS. Both dealt with aspects of the Vietnam War, and both were interviews conducted byMike Wallace. In a 60 Minutes profile, a highly decorated army officer, Anthony Herbert, was interviewed by Wallace about his attacks on thearmy’s role in the war. Then theprogram questioned some aspects of his record. Herbert sued, claiming that the edited segment was defamatory and hadinjured his reputation. Though the case was eventually dismissed, along the way the Supreme Court issued a landmark-and to media journalists, dangerous-precedent. In its 1979 opinion in the case of Herbert v. Lando (Barry Lando was the segment’s producer), the Supreme Court ruled 640-3 that Lieutenant Colonel Herbert’s lawyers could probe the producers and reporters involved to determine their “state of mind” at the time the interview and editing took place. The court reasoned that since public figures had to prove “actual malice” (a legal term that really translates as having “knowledge that something was untrue, or with reckless or not”) on thepart of the media before disregard as to whether it was true
580Chapter
10 Challenge and Competition (1977-1988)
winning a libel judgment, such questioning was a legitimate way to determine if such malice had been present. The other case also never went to a j u r y for final verdict (a large fraction of cases are settled or dismissed beforehand, but not until each party has spenta great deal of money in lawyer’s fees), but itreceived even closer attention. In January 1982, CBS broadcast The Uncounted Enemy:A Vietnam Deception, a documentary alleging a high command cover-up of enemy force figures in the late1960s.A few months later, the former U.S. commander in Vietnam, General William Westmoreland, sued the network for what he and other “hawks” called character assassination, claiming that Mike Wallace’s interview with himwas edited in a way that distorted his true viewsand specific answers. The case went to trialin New York in October 1984, at the same time as a similar case involving an Israeli political figure and Time magazine, the juxtaposition garnering wide attention as once-powerful figures relived their key decisions. Just before the case would have gone for the jury’s assessment-probably in favor of CBS-the general abruptly withdrew his suit and CBS issued a statement of correction and amplification of Westmoreland’s role no different from that promised before the trial. Both sides claimed victory, although in the end Westmoreland had nothing to show for two years of effort (fortunately for him, his legal fees were paid by a conservative public interest law firm). Even so, CBSNews’s careful internal self-examination (the “Benjamin Report”) of its editing process showed that operational improvements were necessary. The case appeared to show that the “actual malice” standard a public figure or public official had todemonstrate was a very steep cliff indeed. (Private figures, however, merely had to prove negligencethat the material defamed the identified victim, and the media couldn’t prove that it was true-in most states.) Obscenity has seldom been a serious problem for broadcasters, though some audience membersdecry what they perceive as widespread portrayal of sexual activity. One incident, however, led to a landmark decision. Comedian George Carlin’s nightclub monologue on “seven dirty words you can’t say on the air” wasaired by a New York FM station on aserious program dealing with language at 2 P.M. one October afternoon in 1973,repeating no-no terms no fewer than 106 times in 12 minutes. A listener driving into thecity with histeenage son heard the segment and complained to the station and the FCC. The FCC, some of whose members apparently were looking for a chance to condemn breaches of their standardof morality (one commissioner frequently took issue with thelyrics of rock music), immediately invoked an obscure section of law (dealing with “indecency,” not “obscenity”) and took the station to court. Ironically, this was the same licensee (the Pacifica Foundation, a listener-supported nonprofit organization that had several stations) about whose programmingan earlier FCC had issued a ringing declaration that the airwaves were not to be restricted to the “wholly inoffensive, the bland.”After a lower court decision in favor of the
10.8 Rethinking Regulation
583
station, the Supreme Court in June 1978 reversed on a 540-4 vote and upheld the FCC’s fine levied against the station, arguing that broadcasting’s First Amendment rights were limited because of its availability in the home and especially its ready accessibility to children. Thus, the court held, the FCC had taken the right approach in telling stations to “channel” possibly objectionable broadcasts to hours when children were less likely to be present in the audience(informally, after 10 P.M.). As was typically the case, the commercial broadcasting industry did notrally to Pacifica’s support. Also as might be expected, the FCC refused to define “indecency,” leaving stations the choice of risking sanctions-or making almost all such programming less offensive and blander. Some stations, of course, took the risk with “topless radio” and telephone-in and interview programs that were quite explicit when it came to sexual matters. Predictably, it took the FCC until 1987 to bring action against these “indecent” commercial programs. However, in April and again in December 1987,in cases against three stations, the FCC issued publicpolicies setting up a more general definition of indecent material and setting aside the midnight to 6 A.M. time periodas a “safe harbor,” when parents could be assumed to control theset, a time periodfor stations to have somewhat more latitude in what they broadcast to adults. The decision seemed both to free broadcasters (in thesix-hour period after midnight-a so-called “safe haven” thatwas removed by Congress in 1988 in a law lateroverturned by the courts) and to tie themto a somewhat vague standard (for the other 18 hours of the day), to the concern of First Amendment purists. On the other hand, even the commission could not overlook the changes in American mores, where four-letter words were used in situations hardly dreamed of a decade or two before and where “jiggle” or “T&A”portrayals of well-endowed women and men, and steamy encounters between them, were a staple attraction in prime time-as well as daytime and late-nightprogramming. The 1984 cable act made illegal the cable transmission of obscene material (whilepreempting local regulation of content for any other reason, including indecency-a concern of many, given the content of some paycable channels). Several states, notably Utah, tried more specific restrictive laws-the very existence of the Playboy Channel was offensive to some legislators-but were defeated on court appeal, since the 1984 federal cable law preempted state action in thisarea as well as others. 10.8.7 Regulation Overview:Abandoning the Trust
By 1988,the electronic media could look back on more than a decade of confusion, competition, and courtroom and congressional pressure-and substantial progress in deregulation. Licenses now ran for longer periods and it was harder for a challenger to petition to deny a station’s license
582
Chapter 10 Challenge and Competition (1977-1988)
renewal; the FCC played a much-diminished role in content; the Fairness Doctrine was dead, since congressional supporters didn’t number enough be able to override a presidentialveto; and citizens’ action groups typically were demoralized and ineffective. The FCC had come to be perceived by the industryas cooperative and market oriented, not as a regulator or critic. On the other hand, many citizens felt that thecommission had abdicated its responsibilities.
10.9 Impact Long before the 1980s, broadcasting had become an integral part of every American’s daily landscape. We awoke to radio news and weather and traffic reports. We switched on one of the network morning shows to have some light news and entertainment while getting dressed and eating breakfast. We drove to and from work with four- (or six-or eight-) speaker AM and FM stereo and tape decks in our cars. After watching the evening’s prime time fare, or a rented videocassette, we might go to sleep after a late-evening television news wrap-up or stay up with a late-night show or cable moviererun. We denied that the derogatory term “couch potato” applied to us andpointed to our careful selection of programs fiom TV Guide or the newspaper. A radio receiver was nearly always within reach-even whentraveling on mass transit, thanks to featherweight earphones of superb quality. While 2-inch portable television sets were only a novelty item in the 1980s, who was to say what they might become in later years? The 1980s might have been another period of consolidation, simply underlining this universal availability of receivers and programming with improved technology. We had more options from which to choose and somewhat more control over what we watched and heard-so long as it was chosen from what the station licensee or cable system operator made available to us. 10.9.1 Competing for the Consumer
Other media continuedto respond to the changing challenges of broadcasting and its newerbrethren. Newspapers increasingly took on the short and snappy story approach of television news, perhaps best epitomized by the rise of USA Today,the first attempt at a truly national American newspaper designed as such from the ground up. Published by thehuge Gannett chain based in Washington, D.C., and printed in plants all over the country, USA Today first appeared in selected sample markets in 1981 and was soon sold across the country from ubiquitous sales boxes designed to look like television sets. USA Today made creative use of color (becoming perhaps thefirst newspaper best known for its weather page!), short stories from every state, and focused writing backed up with photos and clear diagrams and tables. Although deprecatingly called “McPaper” (a reference to the homogenized
10.9 Impact
583
food to be found across the nation at the sign of the golden arches), USA Today met and exceeded all of its financial and circulation predictions. (A televised version launched in the Fall of 1988, however, received terrible reviews and soon failed, since thevery appeal of the print USA Today-the reader’s ability to turn to the section and page that interested him or herwas lost in the necessarily linear presentation of television.) Other papers followed suit. At the same time, newspapers also provided more soft and entertainment news as their hard news function diminished further in the face of competition from round-the-clock radio and television news availability, as well as, later, the Internet. Although newspapers remained the mediumof choice for some types of advertising-local department stores, for example-the handwriting was on thewall: the overall circulation of newspapers in this country had only remained steady while the population grew. Youngergenerations were finding newspapers more and more irrelevant, except for some advertisements and entertainment features such as sports, the comics, and even horoscopes. Yet another trend, similar to that found in most industries, was the ever-growing concentration of ownership in the newspaper business. Between 1963 and 1988, the numberof daily newspapers in the United States dropped by 6 percent to 1,645-but the proportion of those owned by a group or chain more than doubled, from 31% to 74%. In some cases, editorial quality was improved, butsince these companies tended to be publicly traded in the stock market, decisions were increasingly made for the sake of short-term profits. In order to support the ideal of editorial diversity, Congress passed the NewspaperPreservation Act (known to the more polite of its manydetractors as the “failing newspaper act”), allowing supposedly independent papers to engage in joint operating agreements (JOAs) that would save both papers enormous sums in printing and advertising sales costs-and make it harderfor new competition that wasnot part of the JOA to enter the market. Magazines continued to proliferate and specialize. Consumers in the 1980s were hit with a flood of computer magazines of all types, one of which could claim that its hundreds of pages (mostly advertising) made it the largest magazine in history-until the next month saw thatrecord broken. Color became universal in advertising and editorial material except for small-circulation “serious” periodicals. Life, which had folded in 1977 in the face of competition from television for its advertisers, was brought back as a glossy monthly with limited editorial content. Life’s publisher, Time Inc., did not fare so well with a short-lived national cable television guide, dropping millions in an ill-planned venture marked by a lack of understanding of the multichannel medium (despite the fact that Time Inc. owned the HBO and Cinemax services, plus a huge cable MSO). A sign of the changing composition of the American public was therise of Modern Maturity, a membership publication of the AmericanAssociation of Retired Persons aimed at senior and retired citizens, to the top of the circulation
584
Chapter 10 Challenge and Competition(1977-1988)
charts, where it joined other magazines with more than 10 million subscribers: National Geographic, Reader’s Digest, and TV Guide. TV Guide itself continued to flourish and was sold with two other magazines for$3 billion to media tycoon Rupert Murdoch in mid-1988. Perhaps most affected by changes in the electronic media was the Hollywood movie community. Buffeted by television’s onset in the 1950s, and in the dumps economically because of shrunken audiences by the 1960% Hollywood regained some of itsoldproductionpower in the 1970s-though producing more for television networks than for theaters. Box office blockbusters remained rare, and the sure-fire ones often were cofinanced and coproduced with European companies, reflecting the motion picture industry’s century of experience of finding profits in distribution abroad. But a much more substantial revival of production developed after 1980, sparked by the expanding program needs of the two new services, cable and VCRs. The latter made effective use of both old films and often substandard “exploitation” films of various kinds (terror and horror films were big among teen renters in the mid-l980s), whichhad heretofore had fewoutlets. Cable networks and the expanding channel capacity of individual cable systems created an almost insatiable demand for product, which breathed new life into film and tape program production. Independent and “runaway” (to other, cheaper locations) production, using portable equipment rather than big 35mm and 70mm studio cameras, abounded. Some started to experiment with HDTV for feature films, with the editedproduct to be dubbed to 35 mm film for release. Cable payper-view services developed in the mid-1980s often showed top newfilms just after their initial theatrical showings-and provided a substantial increase in movie industry revenues even as the number of theaters in separate locations shrank. The numberof theater “screens” (a more accurate figure than the number of “theaters,” since many old movie palaces had been divided and almost all of the new shoppingmall film centers had multiple screens) rose in the 1980s for the first time in decades, perhaps a result of the fact that the cost of seeing a film in a theater had soared. Many creative figures in Hollywood unsuccessfully objected to the computerized colorizing of old black-and-white films for use by television (particularly TedTurner’s superstation, WTBS), even while many farsighted observers suspected that HDTV would soon replace celluloid. Directors and actors accused the newer medium of bastardizing the product of the old in pursuit of increased revenue and of ignoring the effects of colorization on the original intent of the films’ creators. But the larger questions of art versus commerce took a back seat to the ever-growing need for more talent and for that talent’s own economic concerns. These concerns were epitomized by a lengthy strike of television writers in 1988 against producers and production houses (which delayed the 1988-1989 television season), chiefly overthe question of increases in residual payments to writers for programsbeing rerun.
10.9 Impact
585
Hollywood expanded in more traditional ways as well. By the late 1980s, perhaps epitomized by Rupert Murdoch’s takeover of 20th CenturyFox to make films (and shows for his Fox network), came a return to vertical integration (the big studios controlling chains of first-run theaters as guaranteed outlets for their product). Thispractice had been banned by the Justice Department in a series of consent decrees in the 1940s and 1950s (see p.337), but by the late 1980%theatrical film had sufficient competition from television, cable, and home video that the government no longer seemed concerned about such ownershipconcentration. The metamorphosis of several studios into rental facilities for independent producers also appeared to reduce their power. But regardless of the number of feature films and theaters, the newkings of Hollywood were the television program producers, some of whom also made movies, reflecting a tendency for actors, directors, and producers to work in both media.
-
10.9.2 Changing Electronic Media Worldwide
Just as newer electronic media modified broadcasting’s role in the United States, so did they change radio and television elsewhere. In Britain, by the mid-1980s the long-revered BBC was under pressure more severe than any seen since the days of John Reith. Commercial radio had joined commercial television to offer British listeners a greater choice. The Conservative government, thanks to thefact that itsleader, Margaret Thatcher, was enjoying the longest term as prime minister in the 20th century, was able to push the BBC into being more a carrier of other producers’ material than the closed shop of high-quality and elitist goals it hadbeen for decades. New networks (“channels”) were devised with careful spectrum allocation planning, givingthe commercially supportedIndependent Broadcasting Authority parity (and thensome) with theBBC’s two main channels. Cable appeared; local radio flourished; VCRs became popularin the United Kingdom before they did in the United States (given the few over-the-air channels in Britain). DBS was on the horizon-and the choice of programs included a growing proportion (previously restricted to 14%) of popular shows from the United States. Critics argued that one of the world’s premier broadcasting organizations was being threatened with reversion to “just another broadcaster’’ status. Clearly the public service image of the BBC was being forced to change to a more entertainment-based one. Deregulation of broadcasting slowly spread overseas from the U.S. model, without necessarily the same amount of intellectual ferment but with an equal chance for some of those involved to make a great deal of money. French broadcasting, for example, had arevolution. Long a government operation, French television became aprivately operated entity in the early 1980s. On the horizon was a potential competitor of considerable clout as the French telephone authority installed thousands of “Minitel”
586
Chapter 10 ChallengeandCompetition(1977-1988)
videotex terminals in homes across the country in a bid to leapfrog overthe existing limits of poor French telephoneservice and telephone books. In Canada, by the endof the decade, an overwhelming proportion of the population received its television via cable. The CBC continued to serve the two primary language groups-English (a favorite service of many radio listeners on the U.S. side of the border) and French-across the nation, but it maintained a wary eye on the culturaland economic colossus to its south. Canadian cable systems, to the dismay and anger of U.S. stations located near the border, were authorized to delete U.S. commercials from American entertainment television. At the same time,Canadian manufacturers could not deduct from their taxes any payments for advertising on U.S. stations. Nevertheless, Canadian talent increasingly made its way to Hollywoodonly to returnin order to shoot “Hollywood” films in the much cheaper surroundings of our neighbor to the north. Complicating life for many Americans was the growing 1980s deficit in the balance of trade. The formerly robust American dominance of trade in telecommunications began to reverse by the late 1970% led by offshore (foreign-based, but often American-owned) manufacturing and imports of radio and television equipment. The consumer electronics market had become largely an import sector even by the late 1960s. Costs of labor and parts were lower in the Far East(initially Japan and more recently Korea, Taiwan, Hong Kong, and Singapore-and China). By the endof the 1980% virtually no radios or VCRs and very few television sets were being made in America by U.S. firms-or had been for years. After 1981, however, even industrial telecommunications equipment markets became import rather than export centers. Protectionist pressures grew in organized labor and its congressional allies. Only one American export product remained strong, despite active protectionist moves byother countries: television programming. Partially due to the interest in increasing sales abroad, American companies became more active in international meetings held to set technical standards and make spectrum allocation decisions. Because these meetings usually were held under theauspices of the International Telecommunication Unionor one of its constituent bodies, planning for such meetings had to take place under State Department auspices ( w i t h help from the NTIA and theFCC) and required a great deal of debate before the U.S. delegation could decide on a national position. Emerging technologies, such as HDTV (see pp. 496-498), were particularly problematic. Neither European countries nor the United States were enchanted with the idea of giving over the future of television to a Japanese-developed technology that would threaten their own still-viable consumer electronics industries. International meetings, attended by often sizable U.S. delegations made up of both government and private sector personnel, also worked for improved spectrum efficiency (crowding of more services into the same space) and debated questions of equal access by all nations to the important geostationary communications satellite orbit 22,300 miles out in space. The
10.9
Impact
587
loss of launch capacity caused by suspension of U.S. space shuttle flights for nearly three years following the 1986 Challenger disaster and some mishaps in European space rocket launches added spice to the situationparticularly after the USSR and China offered to loft other nations’ satellites for a reasonable price. Sometimes these meetings were confrontational. American response to an increasingly politicized Unesco was very negative. Long a center of important research and action on communications, especially for developing nations, by the late 1970s this Paris-based U.N. specialized agency, under the direction of Secretary General M’Bow, had become increasingly obsessed with Third World social and political issues. This had caused discomfort formany Western countries that felt that the educational, scientific, and cultural emphasis for which Unesco had been designed was being buried in political controversy. Of most concern to American media was Unesco’s support of a “New World Information Order” (NWIO), a scheme calling for greater Western support for Third World communication concerns. These included training (no problem there); access to the worldwide telecommunications networks, including satellites-which, it was pointedly emphasized, passed directly over the territory of many Third World nations (also acceptable); control over information that leaves a nation, to include licensing of reporters and other government oversight of media, such as a willingness to punish one’s own reporters who offend another country (all of this repugnant to Americans used to operating under the First Amendment); and control by a country over what information comes into its territory (which most Americans would call “censorship”). The 1980 Unesco publication of an extensive report on theNWIO by a commission headed by Ireland’s Sean MacBride brought American unhappiness with Unesco’s direction to a new peak. Finally, after several more years of attempting to work change from within, theUnited States pulled outof Unesco membership (thus depriving the organization of about a quarter of its income) in an attempt to apply pressure to change Unesco’s goalsback to research and support of educational and cultural activities (it had been less involved in scientific matters). If nothing else, this debate helped to illustrate the growing central role of communications in the lives of most countries-and the growing interdependence of the United States with the rest of the world. 10.9.3 Period Overview
If the 1961-1976 period discussed in chapter 9 was one of evolution, the 1977-1989 period was clearly more revolutionary. Broadcasting no longer had a huge consumer market largely to itself as cable and VCRs developed as majority service providers. The networks, dominant in the late 1970s, faced a declining audience by the 1980s, as well as a host of cable network
588
Chapter 10 Challengeand Competition (1977-1988)
competitors. Programming looked and sounded much the same throughout this period-there simply was more of it produced for cable and VCR audiences, as well as a still-growing number of broadcast stations. The relationships of government and theelectronic media underwenta fundamental shift in the 1980s, a shift likely to outlast any short-term political changes. The FCC no longer was seen as a “national nanny,” asMark Fowler once called it. Indeed, television was no longer perceived as something special-it now was, to use another Fowler phrase, simply a “toaster with pictures”and thus should be regulated no more or less than most other businesses. There was general agreement in Congress and theFCC that past days of close regulation and guidelines were gone for good. Just as clearly, there also was disagreement about some important details of the trend toward less regulation, especially concerning ownership limitations, theFairness Doctrine, and programming for or received by children. The pace of deregulation had slowed by the late 1980s, partly due to congressional unhappiness with the commission and partly due to a dwindling number of things left to deregulate, but indicating that a period of consolidation and consideration was at hand. In the end, thepublic was receiving technically better quality material by the end of the 1980s, though largely more of the same so far as content wasconcerned. Yet surveysshowedthat the audiencewas generally pleased with-or, at least, did not want to discard-electronic media. As broadcasting approached its three-quarter-century mark, it appeared to maintain its central role in the lives of most Americans.
Selected Further Reading (AyhabeticaZ within topics. For@ZZ citations, see Appendix D.) Cable’s developing status is discussed in Baldwin and McVoy (1988),Banks (1996), Garay (1988), Mair (1988), Rowman (1983), and Webb (1983). The intertwined stories of Ted Turner and CNN are related in Bibb (1993),Goldberg and Goldberg (1995), and Whittemore (1990).Among the manyassessments of “new” technology in this period are Antebi (1982), Braun and MacDonald (1982), Compaine (1984), Cook and Vaughan (1983), Ganley and Ganley (1987),Graham (1986), Greenberger(1985), Gross (1986),Hecht (1999) on the riseof fiber optics, Reid (1984), Singleton (1986), and Smith (1976). Braun (1994) relates the short, sadstory of AM stereo. Contemporary assessments of the broadcasting industry are found in Bedell (1981), Block (1990), FCC (1980), Goldenson (1991) and Quinlan (1979) on ABC, Tunstall and Walker (1981), and Williams (1989) also on ABC. Tensions in public broadcasting are illuminated in Carnegie (1979), CPB annual reports for this period, National Association of Public Television Stations (1984), and the Temporary Commission on Alternative Financing for Public Telecommunications (1982-1983). The commercial
Selected Further Reading
589
industry is further described in Arlen (1980), Heighton and Cunningham (1984), and Poltrack (1983). Entertainment programming sources are listed in chapter seven, but for this periodsee network-level assessments in Christensen andStauth (1984)’Eliot (1983),Gitlin (1983)’and Sklar (1980). The growing role of religious broadcasting is made evident in Frankl (1986), Hadden and Shupe (1988), and Horsfield (1984). Critical studies of sports television include Klatell and Marcus (1988), Powers (1984), and Rader (1984). Also see the in chapter nine, plus titles for books onbroadcastjournalismlisted Benjamin (1988),Boyer (1988),Diamond and Bates (1992),Einstein (1987), Garay on television in Congress (1984), Henson on television weathercasting (1990), Madsen on 60 Minutes (1984), and Nimmo and Combs (1985). Studies of network anchors include Fensch (1993), Goldberg and Goldberg (1990), Matusow (1983), and Powers (1977). Political television in this period is described in Bishop et al. (1978), Blume (1985), Kraus (1979), Robinson and Ranney (19851,Robinson and Sheehan(1983),and Swerdlow (1984).
Audience research is reviewed in Adler et a1 (1980), Beville (1988), Bower (1985), Comstock (1978), FCC (1979) and FTC (1978)”both on children’s television, Frank and Greenberg (1985), Heeter and Greenberg on cable audiences (1988)’Meyrowitz (1985). Studies of policy and increased deregulation are found in Bensman (1983 and 1985), Brenner and Price (1986), Cowan (1979)’ Ferris et al. (1983 to date), Kahn (1984), Krasnow et al. (1982),LeDuc (1987),Levin (1980),Pool (1983), and Powe (1987). Radio and television around the world are discussed in Alisky (1981), Browne (1982), Codding and Rutkowski (1982)’ Head (1985), Katz and Wedell (1977), Lent (1978)’ Soley and Nichols (1987), Unesco (1980), Winship (1988), and the World Radio-TVHandbook (annual).
Pentagon news briefingduring the Gulf War, early 1981.Depnriment ofDefensc?.
.
". .to provide for a pro-competitive, de-regulatory national policy framework designed to accelerate rapidly private sector deployment in advanced telecommunications and information technologies and services for all Americansby opening all telecommunications markets to competiPurpose of Telecommunications Act of 1996, as expressed tion. in the Senate Conference Report
.."-
September 11, 2001: Photograph from live television of the fireballas a hijacked jet hitsWorld Trade Center tower. Associoted Press, NBC. 591
Chapter Outline 11.1 Converging Technologies 594 11.1.1 Delivery: DBS and Cable 596 11.1.2 Home Entertainment 598 11.1.3 Audio and Video Recording 599 11.1.4 Digital Picture Manipulation 601 11.1.5 High-DefinitiodDigital Television 602 11.1.6 Digital Radio Delayed 606 11.1.7 The Internet as Broadcaster 606 11.1.8 Recording Technology: Here Today,Gone Tomorrow 608 11.1.9 Technology Overview 609
11.6 CommercialProgramming 635 11.6.1 Pushing the Envelope 636 11.6.2 RadioFormats 637 11.6.3 Television Entertainment 638 11.6.4 The Sports Money Machine 650 11.6.5 News and Public Affairs 652 11.6.5.1 Network News Implodes 652 11.6.5.2 Magazine Shows Explode 657 11.6.5.3 Politics and Broadcasting 659
11.2 Stations and Delivery Systems 610 11.2.1 Radio 611 11.2.2 Television 613 11.2.3 Cable Systems 614
11.7 AudienceFragmentation 662 11.7.1 The Art of Choosing 662 11.7.2 Patterns of Viewing and Listening 663 11.7.3 Effects, Real and Otherwise 664 11.7.4 Rumbles over Ratings 665
11.3 Networks and Program Services-Are More Better? 616 11.3.1 Radio Programming Services 616 11.3.2 Television Networks 617 11.3.3 CableProgram Services 619 11.4 Public Broadcasting: Hanging On 624 11.4.1 Letting Go 624 11.4.2 The Eternal Funding Problem 625 11.4.3 Public Radio Programs 627 11.4.4 Public Television Programming 630 11.5 More Advertising 633 11.5.1 Commercial Content and Techniques 633 11.5.2 ForbiddenAdvertising 634
592
11.8 Legislation, Deregulation, andPolicy 666 11.8.1 A New Telecommunications Law 667 11.8.2 Legislating Decency/Protecting Children 670 11.8.3 Cable’s Regulatory Roller Coaster 672 11.8.4 Torts and Ethics 673 11.8.5 Players and Arenas 674 11.9 Into the 21st Century 675 11.9.1 Changes around the World 676
Epilogue: September 11,2001 678 Selected Further Reading 679
o history book can deal adequately with the ever-moving present. Thus, trying to choose an event or a date with whichto start this chapter necessarilyis arbitrary and presumptuous. The1991 Gulf War or other conflicts, the deaths of Princess Diana or John F. Kennedy, Jr., President Clinton’s impeachment, theColumbine High School shootings, or some natural disaster seemed very important at the time, but true history requires more hindsightand a focus on trends and principles. So, this chapter is designed to shed some light onmore recent trends andevents in order to place broadcasting’s story in a modern context. Most changes of the 1980swere brought about by a changing cast of characters within an industry driven by growing competition. During the 20th century’s final decade this competition had intensified in a merging and changing marketplace. One consistent, basic, and important change widely evident in the 199Os,however, is that the concept of broadcasting as a publicservice now is barely given lip service. Starting about 1980,it became-and remainswidely accepted that manufacturers, broadcasters, advertisers, and programmers would fixate on the bottom line. Broadcasting stations and networks now are merely another asset to be managed. This philosophical change, reflected in most aspects of American life, clearly is to be reckoned with until the pendulum swings again. Deregulation, combined at times with just plaingreed, makes clear that phrases suchas “the public interest, convenience and necessity” no longer have the power that they had for the first six decades of American broadcasting. As media playersbecome fewer and larger, it becomes more difficult for individual listeners and viewersto have any influence. In Washington, the sole political goal seems to be getting re-elected (which often means serving the interests of media owners), and the means are avoidance of both controversy and newtaxes. At the broadcast station level, the goal is short-term profit for stockholders, and thereare many meansto that end. Another evolutionary change in the 1990s has been a recognition that program creation and delivery are increasingly two separate industries. Program creation often was seen as pushing the edge of the envelope on sexual and violent content; copycatting was the strategy of choice in program development; and news became more entertainment-oriented. Program delivery was characterizedby ever more channelsfrom a growing number of providers, including cable, satellite transmissions, and the 593
594
Chapter 11 A NewMarketplace (1988-2001)
Internet. Indeed, once distinct fields as “television,” “photography,” and “computers” were losing their identity as they converged to a single multicolor, multimedia screen in front of which people were spending more time-and that screenincreasingly was connected to the Internet.
11.1 ConvergingTechnologies
m
During the 199Os, communication industry buzz words included “convergence,” “digitalization,” and “Internet,” with the “dotxom” of “e-commerce”achieving mythic proportions (at least until afinancial shakeout beginning in early 2000). Instead of remaining separate and clearly defined, electronic media programming, distribution, manufacturing, information, and telecommunications increasingly overlapped and merged. Every company wanted to be a player in this evolving entertainmenthnformation mega-industry. Computers by now were both thesymbol and theessential and often invisible tool of television, as well as many other aspects of American life. The sinews of mass communication-from editing of words and images to billing of customers-now depend on computers. Computers, too, had evolved-with processor speeds doubling every 18 months after 1965, and the RAM provided on a $1,200 machine in 2001 is at least ten thousand times that provided on its much more costly 1982 predecessor. Most important, today’s computers usually have access to the Internet. In December 1996, the television manufacturing industry even decided to modify the proposed technical standards for high-definition digital television in order to accommodate the wishes of computer manufacturers, dropping theold interlaced scanning technical standard in favor of the progressive scanning used for computer monitors. One could envision watching television programs on one’s computer screen, or vice versa in theyears to come, in thesame way one can use the same device to listen to a CD music recording or install a new program on one’s computer using CD-ROM. Specialty “electronic boutiques” were to be found in shopping malls, or in catalogs on the Internet,catering to those who simplyhad to have the latest gadget or gimmick. Were all of these devices necessary? No, but they certainly were desired. A video production house-or a university-without the latest equipment lostcustomers (or students). Yet, everyone understood thatfirst, there was a lot of vaporware (a term originally referring to a computer software product announced and advertised, but not really ready for sale), and second, itwas literally impossible to be equipped at a “stateof the art” level, since next week’s magazines, catalogs, or trade shows would offer something newer. Some products survived on the basis of real quality and reliability, but most new hardware becomes obsolete or obsolescent almost as fast as new software.
11.1 Converging Technologies
595
Despite this rapid pace of change, some measures indicated that industry was less involved in research, rather than more as thetimes might have suggested. As discussed on pp. 485-486, many larger industrial research labs, such as those run by Bell Telephone Laboratories (now part of Lucent Technologies, an AT&T spinoff), GE, and CBS, were either closed or had modified their mission in the late1980s to ignore the breaking of truly new ground in favor of applied product development. More ominously for American industry, a great deal of product development and most manufacturing moved overseas. The classic example is the VCR. It was invented in the United States, but with the exception of a few European models, all manufacturing is in the Far East. Japan, however, has found itself in the same situation as the United States with manufacturing costs too high to be competitive. Consequently, while many of the world’s major electronics manufacturers, such as Sony and Panasonic (Matsushita) are headquartered in Japan, actual manufacturing takes place in Korea, Indonesia, or Malaysia and, increasingly, China. Finally (although not strictly within thescope of Stay Tuned),the telephone industry changed even faster and further than broadcasting. There were many mergers and acquisitions that nullified much of the 1982 consent decree that broke up AT&T. In particular, AT&T itself invested deeply in the cable industry and by 2000 was thelargest MSO. The seven Regional Bell Operating Companies (RBOCs) had shrunk to four by 2000 through mergers. Instead of wires, much of the action was in wireless cellular telephone service, first analog and then digital. Cellular telephone companies were seeking more spectrum space and doing other planning for a third generation (“3G”) of cell phones that included global positioning system and Internet access, services already available in Europe and parts of Asia. Other voice and data transmission systems, including the Internet, cable, and various personal communication services (PCS) cut into conventional telephone revenues, but opened newopportunities. Like firmsin every part of telecommunications, telephone operating companies merged. Plain old telephone service, or POTS, now wasa tool of the past, itssuccessors often merely adjuncts to the computer and using radio waves for transmission. However, some proposed PCS systems consisted of blue smokeand mirrors, and others-such as the worldwide Iridium system-misjudged the demand (and the pricing) for their service and quickly went under. In 2000, Iridium had to pullthe plug on its $5 billion dollar fleet of 68 satellites and was planning to let themto burn up in the atmosphere-to the satisfaction of radio astronomers and others who had suffered technical interference from Iridium’s transmissions-but new owners bought the system for a relative pittance ($25 million) and secured government contracts to give it a new lease on life. On the low-tech end of the technical spectrum was the demise of the original use for radio-using Morse code for saving lives at sea. In 1995, the U.S. Coast Guard stopped listening for distress messages on thetraditional
596
Chapter 11 A New Marketplace(1988-2001)
500 kHz emergency frequency in use for nearly a century. Four years later,
the U.S. Navy stopped using Morse code, except for signal lamps for messages sent between ships observing radio silence. Replacing the simple and reliable SOS was a voiced call on higher frequencies of “mayday” (French for “help me”)-or an automatic signal bounced from a satellite. These changes-which placed a great deal of reliance on easily interfered with satellite technology-left amateur radio operators as the only regular users of continuous wave (CW) and other Morse transmissions. In 2000, the FCC reduced the Amateur code test requirementto only five words per minute, in recognition of the turn by most amateurs to other technologies. But more than a few of America’s three million hams must have smiled at the sciencefiction adventure movie Independence Day, which showed Morse as the only way to communicate securely and reliably over long distances after enemy aliens disabled the world’s communication satellites.
-
11.1.1 Delivery: DBS and Cable
To most viewers or listeners in the 199Os, the multiplying means of delivering television or radio signals to their receivers were seen as natural evolution. While local television stations continued to broadcast, roughlytwo thirds of American households received their television by meansof cable during this period. Cable systems provided many more channels than formerly, including a number of cable programming services, although those systems offering more than 100 channels sometimes found that there was too little programming available tofill them. Talk of 500-channel systems using fiber optics or other wideband techniques was heard frequently during this period but, once again, ran afoul of the obvious fact that much programming would be duplicative. Who would want to pay for500 channels of the same thing?To paraphrase an old Bob Dylan song,lots of channels and nothing much on. In a few larger cities, multichannel multipoint distribution services (MMDS, or “wireless cable”) providedprograms on about 30 channels, using super highfrequencies and smallline-of-sight receiving dishes and converters. MMDS, directly competing with cable and with thesame national programs, reached more than a million subscribers by the mid-1990s. Direct Broadcast Satellite (DBS) service finally became a consumer reality after years of debate and false starts. First to those locations not served adequately by cable, and then in direct competition with cable, DBS systems offered most content provided by cable-except for local stations until late 1999 when newlegislation allowed DBS systems to carry local signals. A single high-powered satellite could place a strong footprint over much of North America, as was earlier the case for parts of Europe, permitting the use of small 12-to 18-inch dishes for reception. Use of video compression technology allowed transmission of more channels, making DBS offerings more diverse than those of many terrestrial cable systems.
11.1 Converging Technologies
597
The first modern U.S. DBS system placed in service was DirecTV, launched by Hughes in June 1994. It was quickly popular, with people unable to receive cable (or unhappy with it) signing up at a faster rate than they had bought any other consumer electronic product or service in the past. While the industry hoped to reach a goal of at least 15 million U.S. subscribers by the turnof the century, it didn’t quite make it, withfirm figures reaching only about two-thirds of that level. Early in 1996, when AT&T bought 2.5% of DirecTV, the price they paid extrapolated the total value of the firm to $5.5 billion. Yet, of more than two dozen applications for DBS/DSS processed by the FCC after 1981, only four-U.S. Satellite Broadcasting Co. (USSB), Hughes DirecTV, Primestar, and Echostar-survived mergers, bankruptcies, and FCC actions to become operational by the endof 1996. Since then, Hughes has purchased USSB (for $1.3 billion) and now serves more than half of the market.. .but iscoveted by Rupert Murdoch. But the global nature of satellite communication made iteasy for multinational corporations (such as the mediaempire of the ubiquitous Rupert Murdoch, with DBS systems serving several continents) to make their own rules for this potentially lucrative business in anera of deregulation. Deals for the control of satellite transponder channels, between sometimesunlikely partners, became commonplace. The several hundred million dollar cost of a satellite, its launch, and necessary insurance, restricted the hardware itself to the larger companies. On the other hand, thanks to competition with other DBS providers and cable, consumer cost for a small receiving dish with a direct line of sight to the desired satellite dropped from more than a thousand dollars in 1994 to $199 by 1997, including large hardware discounts given to those who signed long-term agreements for the program service. Monthly fees, which had to cover operating costs, profits, and license fees charged by content copyright holders, generally were only slightly higher than cable’s. Although some people still used theolder large dishes that couldbe aimed at more than one satellite, scrambling of signals on most satellites (and thefee paid to have them unscrambled) and availability of the cheaper DBS served to restrict expansion of this market. Despite DBS inroads, cable remained king. Where cable service was considered adequate, there was little reason other than price to switch to satellite. The proportion of the audience willing to bother with an antenna to receive a relatively small number of on-air channels steadily declined. An increasing number of subscribers watched premium channels and thus paid higher monthly bills (see pp. 619-624). By the late 199Os, cable operators were promoting cable modems, with very high speed connections to the Internet, on systems that had been rebuilt from coaxial to fiber optic cable. Since surfing the Internet and broadcasting were competitors for people’sleisure time, thisdevelopment didn’t help broadcasting-but it did make cable more profitable. Similarly, cable proposed using its facilities for voice telephone service, but cable’s spotty
598
Chapter 11 A NewMarketplace (1988-2001)
record for consumer service led to a wary reception of both initiatives. Other utilities connected directly to homes, including local or regional telephone and electric power companies (whose own deregulation allowed them to spread into other fields), also were making strategic agreements with Internet service providers. Such formerly rare moves of one industry into areas long claimed by another were becoming morecommon-and uncertainty bred fear and a new label: convergence. 11.1.2 Home Entertainment
a
By 2001, the home television set might boast a screen up to 35 inches for direct-view, and perhaps five feet across for projection units. They were cheaper, flatter, and thinner, although flat screens to hang on thewall (a goal since electronic television was invented)were only starting to appear. Novelties such as battery operated sets, and experiments such as units that could be worn likeeyeglasses, achieved little popularity. Nobody bothered to repair smaller sets, since they could be replaced for $100 or less. Features such as picture-in-picture were selling points, as was the ability to plug television audio into high-quality stereo loudspeakers. Some could be used with computers-or, more commonly, with computer games. Televisionaudio was now increasingly supplied in stereo, and a closed-caption system for the hearing-impaired continued in widespread use. A device that would prevent the showing of scenes rated as violent by the networks, the V-chip, was available-but rarely used in homes, even those with small children, even though virtually all the major broadcast and cable networks were more-or-less voluntarily encoding ratings information in their signal or planned to do so. Many sets were truly cable ready, although cable systems using older technologies still required rental and use of their own set-top control boxes-as did some newer digital cable systems. Almost all electronic entertainment devices now had remote controls that could be pushed by the most sedentary “couch potato,” while universal remote controls could operate a variety of audio and video electronic equipment. Although the television set continuedto be the focus of most electronic home entertainment,even in homes withspecial media roomsor home entertainment centers featuring theater sound and projection video, there were evolutionary changes elsewhere-many involving the computer. The Internet and the World Wide Web became accessible to millions of people who prefer to surf through the world’s information offerings, or chat with like-minded people, pursue hobbies, or buy and sell products using their computer-now with larger screen, in full color, and often able to display television pictures. While some used this capability to satisfy a desire for pornography, others applied it to self-improvement, though many still wondered what all the excitement was about. Ironically, the failure of videotexheletext on broadcast or cable television (see pp. 493-495) turned
11.1 Converging Technologies
599
out to be transitory in terms of content, since all of the applications once proposed for these text services-and more-now are found on theInternet, indicating that the earlier concept was fine but that the meansof delivery (and promotion) were inadequate. Each player in the home entertainment game is aware that many prior technical limitations no longer apply, now that almost everything is digitized and can be manipulated by microchips. Economic factors may delay innovations, but can’t stop them if public demand is there, or can be created. Once an old technology has been depreciated for tax purposes (and some of it actually is expensed on an annual basis), if a new model can be built, and someone will pay for it, it will be produced. Thebest example is the computer itself, new models of which become obsoletewithin days of their introduction. The belief that graphics should be central in modern communication has led to a bloating of the code used for programmingbut ever-cheaper memory has allowed that to occur. Similarly, the amount of information thatcan easily be transmitted over an everyday telephone wire has jumped far beyond what was thought possible just a few years ago.
-
11.1.3 Audio andV1deo Recording
The audio LP record faded away in the late 1980s, although some audiophiles claimed that analog recordings, however scratchy, had a “live”quality that digital recordings couldn’t match. The audiotape cassette, by the mid-lggos, also was on itsway out after a long and successful run, except for those with large collections of music in this format or radio stations that still found them useful in automated systems. Replacing both was the compact disc, or CD. When portable CD players, some little larger than the Walkman, and units for automobiles became available, more music listeners switched over. Perhaps because they had become the new standard,although at first they could be successfully duplicated only by professionals, the cost of CDs did not drop nearly as fast or as far as earlier formats did when mass produced. Enough money was being made that proposed improvements in the CD system largely were ignored, although devices that could hold and play up to 300 CDs (making selection easy while taking up little space) were available by thestart of the newcentury, and theresearch lab held unitsof even higher audio quality. In the mid-lggos, the inability to make their own CDs was the only major limitation for consumers, and a major advantage for the record companies. That limitation paved the way for a major policy debate about allowing American sales of yet another new technology, the digital audiotape (DAT) recorder and player. Developed in Japan, and originally priced around $2,000 per unit, theDAT obviously was seen as a menace byrecord companies concerned that consumers or well-organized pirates with a DAT
600
Chapter 11 A New Marketplace(1988-2001)
could make digital copies of CDs without losing any of their vaunted sound quality. (To record from a borrowed CD onto a conventionalanalog cassette tape, besides being a probable violation of the copyright law, introduced hiss and other noise that even the best cassette systems couldn’t avoid.) Fearful of heavy sales losses if DAT machines became popular, the recording industry pressured Congress to ban the sale of DATs or, failing that, to require limiting their ability to record copyrighted material. Columbia Records, the largest record company in the world, spearheaded the move toward a “notch”system of recording that would ruin any attempted DAT dubbing. The National Institute of Standards and Technology (NIST),however, found the system delivered inferior sound and was easily circumvented. (Columbia Records may not have been too distressed; early in 1988, CBS sold its record company to Sony for a billiondollars-and Sony was an early backer of DAT.) But until Congress acted, no major Asian manufacturer risked tariff retaliation by exporting DAT equipment to the United States. Although some DATs are being sold, most of the public, perhaps mindful of the costs of switching toyet another format, has ignored it. In the late 199Os, two further technological developments caused the recording industry to again fear forits future. The first, bypassing DAT technology, was the availability of blank CD disks that anyone could “burn”or record on. The second, laterin thedecade, was MP3 computer software that enabled many of the antipiracy codes on musical recordings to be ignored and the recordings of choice downloaded from the Internet. The providers of such music to the public, such as Napster, claimed that they only allowed people who could demonstrate that they had legally purchased the recording to download it for their convenience, but this was questioned and nullified by the courts in 2000. According to a Harvard Law School Berkman Center report, by 1999 “MP3” had replaced “sex” as the Internet’s most searched term. Although the Recording Industry Association of America (RIAA) fought back in court against “pirating” and “bootlegging,” the use of MP3 already has led to such varied results as a billion-dollar business and restrictions imposed by several university computer centers because computer resources were being swamped by students downloading music. Although there are legal arguments (based on the “first sale doctrine” that allows people to resell records or books that they purchased in the first place) for allowing downloading, it is never safe to predict whatthe courts or Congress will decide todo-or ignore the possibility that the next generation of music software will prevent such activity unless someone has paid the original source for the copying-otherwise, why would artists bother to record? U.S. video recording in the 1990s was all-VHS, except for professional users and a few with older camcorders that used different formats. During the 20th century’s last dozen years, the price ofVCRs and blank tape dropped, remote controls became more complex and complete, and a few innovations-such as the ability to automatically fast-forward through
11.1 Converging Technologies
601
commercials-were developed. However, since many people still didn’t know how to program their VCRs to record programs for playback at another time, objectors to the introduction of almost any complex new technology used the cautionary image of “millions of Americans with their VCRs endlessly blinking 12:OO.” One technique that made iteasier to time shift was a device that worked with newspaper or TV Guide program listings, and withVCRs designed for the purpose, that allowed the VCR to be programmed merely by punchinga number intoa remote control. The consumer video product ballyhooed most in the late 1990s was DVD (Digital Versatile-or Video-Disc). Its backers argued that DVD will replace CD-ROM, video discs, and other, more exotic, recording devices for interactive multimedia, because of its high capacity (possibly as much as 18 gigabytes, equivalent to a feature movie, on a single disc) and high speed access. Although interactive, the cost of recording on these new highcapacity devices may be higher than the average consumer would be willing to pay-but, as with the VCR, costs of such hardware can drop rapidly, with DVD players in 1999 costing half what they had cost two years before. A variant, D i n , used by Circuit City’s video rental business to preclude illegal copying, offered nothing to the consumer and soon died. While the cost of manufacturing audio and computer CDs has dropped, it is still only a secondary video recording medium, restricted for the mostpart to industrial, educational, and rental movies, and unable to accommodate most movies on a single disk. A similar product, 12” analog laser video discs, has the capacity for interactive video.
-
11.1.4 Digital Picture Manipulation
The improvement of digital storage devices now allows video and filmmakers to create pictorial images in the computer-and modify them at will. Being able to morph, or change shapes from one image to another, allowed creators of video advertising and entertainment the chance to explore a dramatic new technique. Other previously impractical special effects could now be inserted in commercials and feature films-and even home “movies.” The price of professional equipment has dropped almost as fast as the homecomputer, which, with all of its color, high-capacity storage, and bundled programs, costs about a quarter (in current dollars) as much as its 1982 counterpart. Semiprofessional video recorders in 2001 cost only a small fraction of the price of those sold in the mid-1980s. As a result, although stations, networks, and production houses spend many thousands of dollars to buy professional special effects generators and graphic “paint boxes,” the industrial videographer or advanced amateur could buy one that does almost all of the same things for a few hundred dollars. One early unit was ironically called a Video Toaster,and was sold as a consumer device.
602
.
Chapter 11 A New Marketplace (1988-2001)
These new and inexpensive devices are creating a growing similarity between film and video-and even home computers. While Hollywood studios still have the facilities to attract the best talented personnel to produce feature motion pictures, even the most spectacular-such as the Star Wars films of George Lucas-use video for editing (on a computer, which also can be used to create characters and scenes that never really existed) and reap much of their revenue from the sale of videocassette copies. The “filmmaker” of the pastoften is nowa “videographer,” even though many stillrefer to the product as film. Home movies can be converted to video at a neighborhood copy center, photo or computer store, and the family camcorder has replaced the home movie camera. The contentsof old still photograph albums can be converted to magnetic videotape, floppy disk or CD-or to any digitalized form that can be stored in the computer and manipulated, to be viewed or printed on demand. One important psychological result of this ability to manipulate pictorial matter has been a weakening of the aphorism “pictures don’t lie.” While feature motion pictures such as Zelig and Forrest Gump at first amazed movie theater audiences with the insertion of modern actors into historical scenes, this soon became common,particularly in commercialsor the annualAcademy Awards show.Once the idea was out, people started thinking about other ways to use such techniques. As a result, much less expensive software quickly was devised that could be used to change what used to be thought of as unchanging pictorial history. If you didn’t want a former spouse in a photograph-get rid of him or her at the neighborhood photo shop, or with your home computer.
-
11.1.5 High-DefinitionlDigitalTelevision
A similar path is being taken by digital television. While the first attempts at high-definition television (HDTV) used analog technology, including initial Japanese demonstrations in the 1980s (see pp. 496-498), it became obvious around 1990 that almost all electronic television transmission and recording would soon be digital, and that HDTV should be as well. This understanding wasn’t sufficient to produce an agreed-on standard, although soon HDTV was merely a part of what was increasingly being called DTV (Digital Television). U.S. politicians and manufacturers liked the idea of creating a new consumer product,one that would helpredress the balance of payments with Japan and lay the groundwork for a resurgent U.S.electronics manufacturing industry. As early as 1990, several firrns developed computer simulations, and later, actual experimental equipment demonstrations were shown at the huge Consumer Electronics and National Association of Broadcasters (NAB) trade shows. The NAB, however, decided to emphasize a vaguely defined multimedia, and ended its special HDTV showings after a few years.
11.1 Converging Technologies
603
NTsc
HDTv and Several photos of the inside of the cargo bay of a NASA space shuttle demonstrate the digital future of television. Those on the left are all-digital HDTV (note their clarity), those in the center show how HDTV looks when downconvertedfor viewing on an analog NTSC receiver, and the photos on the right exemplify the relatively see, course, is poor picture definitionof a regularNTSC analog picture. What you can‘t of the far better digital sound that also is featured in the HDTV receiver.
m
IDTV and NTSC with similar horizontal Reid of view
H D N downconverted Analog NTSC
Selected Areas Magnified
Photos courtesy National Air and Space Administration.
After nearly a decade of hearings, preliminary reports, and even a suspension of the antitrustlaws to permit cooperative and comparative laboratory tests of HDTV and ATV (Advanced Television) systems by an Advisory Committee on Advanced Television Service under the direction of former FCC Chairman Richard Wiley, the FCC in 1996 approved a “Grand Alliance” package of technical standards that combined the best of several HDTV systems. The commission was virtually ordered to establish HDTV by Congress,which was looking for a way to rejuvenate the Americanelectronics industry and respond to pleas from entrepreneurs for frequencies that could be used for personal communication devices and other profitable systems. The FCC set a schedule for introduction of the system, and projected the end of analog NTSC service by 2006. In November 1998, some stations in the top ten markets began to offer a few hours a week of digital television transmission-even though receivers still cost as much as many automobiles. By 2001, nearly two thirds of Americans were within the
604
Chapter 11 A New Marketplace (1988-2001)
transmission range of at least one of the several hundred stations then offering HDTV-but almost none could afford to see the broadcasts in their digital glory. As late as November 1999 fewer than 20,000 sets a month were sold (which was a 45% increase over the previous month, probably due to the Christmas season). Even HDTV’s supporters didn’t anticipate a price much lower than $2,000 in theforeseeable future, whilea good NTSC analog color set soldfor less than $300. It was clear even by 2000 that the transitionto HDTV was going to take far longer than its supporters hoped. Thereasons for this delay were (and remain) both technical and economic. Some adherents (such as Sinclair Broadcasting, in 1999) continued to recommend revised technical standards, there was considerable unexpected difficulty with interference in urban areas, and the need tooperate HDTV stations on new channelscreated otherproblems. There was even disagreement over what the “HD” of HDTV meant, in practice. The FCC’s 1996 decision, which was quite detailed with respect to channel allotment, audio, and suchdetails as aspect ratio (adopting a widescreen ratio of 16:9 rather than the familiar 4 3 ) allowed up to 18 different video formats, some providing 1,080 lines of vertical definition (as contrasted to the 525-line NTSC standard adoptedin 1941),but some supplying only 480 lines-which, since they are digital, still provided a sharper picture than analog sets. To complicate things further, some broadcasters planned to use interlaced scanning (i), and others the progressive (p) scanning used for most computer monitors. The major broadcast networks, under political pressure to provide leadership, reflected this confusion. For example, ABC planned on using 720p during the evening and only 480p during the day; Fox planned to transmit both to its affiliates; while bothCBS and NBC committed to the true HDTV of 1080i. The International Telecommunication Union questioned whether even 720p was really HDTV The shiftfrom HDTV to DTV gave stations a remarkable choice: instead of transmitting the superb pictures ofHDTV, they might use their new channel and digital compression to provide four (or more) simultaneous NTSC-standard programs-a potentially much more profitable course, and one that could help achieve the rhetorical goal of 500 channels in every not home. After all, the typical newsprogram, soap opera, or talk show does need high definition. While multiple channelsmight ease the financial cost of stations’ transition-such a practice might make true HDTV very rare. The cost to stations of conversion to HDTV was bound to be high. For a period of years, they would have to provide NTSC signals on their existing channel, while offering a growing number of hours of DTV (or H D T V ) transmission on a second channel (granted without cost as part of the FCC’s 1996 decision). Additionally, productionequipment was verycostly. When color was adopted in the 1950s (see pp. 321-324), a station merely had toinstall a minor piece of transmission equipment to transmit network programs in color, later adding a color filmchain camera torun motion pictures and slides, and new
11.1 Converging Technologies
605
cameras only when competition made it necessary to supply local live programming in color. Much station equipment could remain the same. But HDTV requires stations to invest in new-andvery expensive-transmitters, cameras, videotape recorders, and, in many cases, towers and antennas to cope with the fact that all stations will provide their HDTV signals on a new channel. Even the set for the local news will have to beupgraded, for HDTV makes all too clearwhat is real and whatis a cheap imitation background. The broadcast industry, already beleaguered by competition from other video distribution systems cutting into itsprofit margin, grew increasingly concerned about these new costs of doing business. Congress, responding to broadcaster appeals, passed a law in 1997 requiring the FCC to continue both systems (and, thus, allow broadcasters to continue to use both channels) until 85% of the national audience ownedHDTV receivers. Language in a 1998 budget law, also largely written at the industry’s behest, restricted the FCC’s intention to auction off the “old” channels for mobile personal communication devices and other services. Now, even if only 5% of households in a given market continue to rely on analog signals, the effective date of returning the old channels for auction will be delayed. Hence, stations probably will be able to retain a multichannel transmission capability-and spread out theirHDTV investment-over many years. The FCC’s original goal of phasing out NTSC seven years after the start of DTV already has been frustrated by thepolitical inertia of many billions of dollars worth of receivers in nearly a hundred million homes. Why replace your TV set until youhave to? Is the “new”DTVIHDTV programming really worth thehigh cost of a new receiver? The only realistic likelihood of speeding up the process would be if those who wishedto take over the old channels for other purposes mustered enough political clout to persuade Congress to pass a “speedup” law. After all, any FCC decision can be overturned by Congress.Although a new industrymight result from HDTV, few members of Congress want to be in the position of supporting a decision that would force voters to spend thousands of dollars each on something they don’t believe they need. There are a number of historical precedents for this slow adoption of new technology. The first American color television receivers were sold in 1955 (at prices, adjusted for inflation, comparable to HDTV sets of today), yet it took more than 1 7 years before the majority of households hadcolor. The United Kingdom went through a similar upheaval when it established 625-line television on UHF in 1964-and it took morethan two decades for it to be politically feasible to cease broadcasting the old 405-line VHF signal. (And it would have been easier in the U.K. in the 1960s, since many sets were leased rather than owned, and a “carrot”-color wouldbe transmitted only on the new standard-was provided to balance the “stick” of closing down the 405-line service.) More recently, the Japanese NHK television network began an analog HDTV service with coverage of the 1988 Tokyo Olympics, and was providing an eight-hour-per-day schedule by
606
Chapter 11 A New Marketplace(1988-2001)
1991. Yet, even a decade later, only a few thousand receivers had been sold, at prices equivalent to tens of thousands of dollars. Based on past history, the higher picture quality of DTV, its wide-screen format, stable color, and high-quality audio may not be sufficient to attract large audiences-even if prices drop quickly. There will be some willing set buyers-those who want to be “the first on the block,” those to whom television provides art forms rather than information, sports fans, nature and look movie buffs, and others. No doubt, programs-and commercials-will better on HDTV, but will they be perceived as something “extra” in the way of programming? DTV isn’t really like the first 1940s television receivers, which provided something truly new to the households that owned them, something that they couldn’t have enjoyed before in another format.
11.1.6 Digital Radio Delayed
msillmm
Digital audio broadcasting (DAB) ironically was slower than digital television in gaining FCC approval. Though discussed and researched in the 1980s, with the Eureka-147 technical system up and running in Europe by the mid-lggos, industry disagreements stood in the way of the FCC selecting an American DAB standard from nearly a dozen incompatible systems. This delay was due, in part, to a shared desire by industry and commission to incorporate digital radio in the same frequency bands already providing AM and FM service (“in band”) so that a transition from analog to digital might be accomplished more smoothly. Terrestrial stations fearful of satellite competitors delayed things further. In thelate 199Os, the FCC authorized twosatellite providers to supply digital audio radio service (DARS) direct to homes. Service began in 2001. While many Americans already enjoyed digital music service on cable or DBS channels, the newDARS operations presented a distinct threat to terrestrial broadcasters still squabbling over their own digital radio standards. or are Although most telecommunications services have switched, switching, from analog to digital, the near-term future of digital radio broadcasting still cannot be predicted. However, using historical precedents for adoption of new technologies, it seems likely that at some point in the early 21st century the radio industry will be fully digitalized-after many arguments, false starts, and a transition period. Most radio control rooms and recording studios already are partly or fully digitalized. It also seems very unlikely that existing broadcasters will relinquish control over their industry willingly to newcomer entrepreneurs like those who started DARS.
-
11.1.7 The Internet as Broadcaster
The rapidadoption of the homecomputer since the IBM-PC was introduced in 1981, and the amazing growth in use of the Internet in the late199Os,has
11.1 Converging Technologies
607
created a revolution comparable to the introduction of the printing press 500 years ago. By 2001, roughly half of American homes had access to the Internet, at home,school or workplace, with nosign that therate of growth was abating. Some arguethat the Internet is not a “mass medium,” as it lacks the centralized structure of all previous print, film, and electronic media services. No single company or group of companies, much less any individual, can dictate what isavailable fromthe Internet at any onetime. To some extent, the hternet and theWorld WideWeb reflect the cooperative anarchy of the Internet’s founding. But, as a technology capableof being used to deliver entertainment, information, and persuasion (advertising)to millions at thesame time, it certainly has many parallels to the rise of both radio and television. Initial users of the Internet, just as with radio andtelevision, tended to have curiosity, lacked fear of technology, and were largely well-to-do, white, andmale. But just as older mediasoon transcended these characteristics, the Internet has become easier and less expensive to use, and the needed computers have become both cheaper and more capable. As a result, Internet usersincreasingly reflect a cross-section of America. When the Internet’s predecessor university and military scientific research high-speed computer network, Arpanet, was established in 1969, few thought it would lead to applications like distribution of music (see p. 600), the distribution of a new StephenKing story solely through the Internet early in 2000, and several proposed schemes for distributing motion pictures and graphic arts electronically. While the history of the Internet itself-with its rapid increasesin speed, capacity, interconnectiveness, and applications, such as e-mail and e-commerce-is outside the scope of this volume, several events in Internet history affect broadcasting. First, the conversion of the backbone National Science Foundation (NSF) scientific network from one available only to a few universities and military laboratories to an “open to all users” free-for-all operation, and its moving from NSF oversight to shared (although not centralized) private control between 1992 and 1995, made the idea of reaching the general public a possibility. Second, the early 1995 lifting of bans against Internet commercialization led directly to today’s e-commerce.A defacto standard, the World Wide Web, made it easier to post specialized material on theInternet, particularly graphics, audio and links to other sites. The first browser software, Mosaic, became available in 1993, followed soon by Netscape Navigator, the first commercial browser, and Microsoft’s Internet Explorer. When monthly flatrate (rather than hourly) pricing was introduced by America On Line in 1996, all of the elements of today’s Internet phenomenon were in place. During its first decade, the Internet’s “high-tech” and “e-commerce” firms created many billionaires-but financial conservatives wondered how companies with little or no income couldgain so much invalue, even own stock portfolios, at least while they admired the results in their until many “dot.coms” ran into a fiscal brick wall in the Spring of 2000.
608
Chapter 11 A NewMarketplace (1988-2001)
Nevertheless, retail sales over the Internet-from books sold by new firms like Amazon.com and traditional mass booksellers like Barnes & Noble, to clothing and gifts sold by catalog merchants who moved some of their operations to the Web-expandedgreatly, although profits were rare. In 1999, Christmas sales over the Internetwere three times those of 1998. Such sales were up again in 2000,but by a smaller amount. Broadcasters initially were perplexed by the Internet, and were concerned about its competition for their audience’s time and attention. Indeed, some advertising revenue already was being diverted from the traditional media (including radio and television) to Internet sites that spread banner advertising throughout their offerings. Soon, the networks and most majormarket radio and television stations also had a Web presence. These sites ranged from mere program listings or background material to full-time audio “stations” streaming their content directly to home computers. By the early 2000s, many listeners changed their habits, enthralled by the clearinghouse sites that allowed Internet users toselect their own programming, music, or talk, from hundreds of sources, in their home town, across the nation, or abroad. Some musical artists, no longer sure that they would receive adequate payment for their creative talent through royalties paid by record companies on sales of conventional CDs, tried ingenious ways of using the Internet, from providing previews of new tunes to the sale of an entire album over the Internet-without any physicalrecording changing hands. 11.1.8 RecordingTechnology: HereToday, GoneTomorrow
One problem of media recording technology is of particular importance to historians-including this book’s authors-as well as media professionals and consumers. Nobody knows howlong magnetic tapes and diskettes can retain theirmessage, people andfirms toss out irreplaceable records, while newspapers, books, and motion picture films crumble into dust every day. E-mail is transitory. When we run intoa defective backup computer disk, or find that lovingly recorded audio cassettes no longer are playable, then news reports of 15-year-oldvideotape melting at theNational Archives and early CD-ROM program disks showing decay after only a decade raise a justified fear forone’s camcorder movies-and for the television programs one remembers from childhood. The picture isn’t entirely bleak, particularly with respect to motion pictures that have been maintained well-such as the reissue of the original 1977-1983 Star Wars trilogy in 1997-and audio disk recordings that have been stored under controlled conditions and rarely played. (One of the authors of this book recently was shocked to hear a broadcast late one night of a recorded radio program on which he had appeared a half century before.) Occasionally, treasure troves are still being unearthed as, for example, the discovery in the Fall of 2000 of 47 boxes of long-lost scripts and other
11.1 Converging Technologies
609
memorabilia from early television’s Your Show of Shows and other productions in a locked and painted shut closet. (Your Show of Shows was an intellectual precursor of That Was the Week That Was and Saturday Night Live, and is credited with causing many people in the early 1950s to buy their first television sets.) These materials had been stashed away by Max Liebman, a producer from this legendary era, more than 40 years earlierand forgotten after his death in 1981. The closet had once opened into the “writer’s room” made famous in television (Carl Reiner’s The Dick Van Dyke Show),movies (MyFavorite Year),and onBroadway (Laughter on the 23rd Floor, by NeilSimon). Some of the writers who had used this room, in addition to Reiner and Simon, were Sid Caesar and Imogene Coca (the stars of the program), Woody Allen, Larry Gelbert (M*A*S*HI, Me1 Brooks, and others. Kinescopes ( a n early recording method) believed to have once been in the closet were now gone-but Sid Caesar is believed to have a complete set. Obviously, finding such raw material from broadcasting’s past is a tricky combination of archeology and detecting. While some soundrecordings of many events and radio programs of the past century exist in the hands of collectors-a few outstanding examples were aired byNPR in “Lost and Found Sound” segments played during news programs i n 1 9 9 9 t h evast bulk of past television programs are irretrievably lost. So, the problem of preserving and exhibiting the few surviving television programs is particularly acute. There are two parts to the problem: legal and technical. If intellectual rights to a work haven’t been secured, it may be illegal to reproduce it, because of the extension of the period of copyright in the late 1970s (see pp. 577-579) and the so-called “Sonny Bono law” of 1995 that extended copyright protection to as long as 95 years. Further complications were caused by the complex ownership and talent contracts used in the entertainment business, and imperfect systems for indexing and locating, often makingit impossible to locate original tapes or negatives. But even if a buyer has theoriginals, they may no longer be physically usable, although there are some kinds of archival film that are expected to permit new prints of feature films to be struck for decades to come and thelater types of CD-ROM, because of their digital structure, may last for as long as theirbackers claim. Maybe. But maybe not. In spite of the salvage efforts of corporations, institutions, and individuals, it seems probable that the number of video programs from the 20th century that will be viewable in the year 2050 may be even smaller than the amount of programming that has survived from the first 40 years of radio’s existence. 11.1.9 Technology Overview
I I
Related evolutionary developments that most affected the broadcasting industry after the late1980s were the convergence of broadcast, computer, and
610
Chapter 11 A New Marketplace (1988-2001)
other technologies, and the nearly universal adoption of digital electronic technology as a replacement for analog circuits. Once a signal-audio, video, computer data-is converted to digital form, it can be manipulated and transmitted at will. With the proper devices at both ends, almost any signal can be sent through almost any channel andrecorded and stored in digital form, without distortion or loss. This makes using a computer terminal for the viewing of television programs practical. At the same time, a wide-screen color home television set might be usedas a massive multimedia computermonitor, particularly for playing games. Asa result, the dedication of various kinds of processors and monitors to particular uses is likely to diminish, with theuse or content of the information being manipulated and monitoredbeing much more important than how we labelit or the delivery system employed. It may be significant that Bill Gates, of Microsoft, now owns several of the world’s photographic archives. In addition to the convergence and digitalization of electronic media (and, we should remember, worksin any medium can be converted to an electronic signal), distance has become irrelevant. Almost any signal, from a broadcast network’s to an e-mail message, may go around the globe forthe same costas across the street thanks to the use of geosynchronous space communication satellites. While new technologies (such as DTV) may takesome time for public acceptance, the delay is almost always now because of financial (or, less commonly, regulatoryholdups) not technological or scientific barriers.
11.2 Stations and Delivery Systems While the number of broadcasting stations on the air continued to inch upward toward the turnof the century, the importance of each one shrank. A majority of the public received television via cable, on whicha local television station was merely one program service (admittedly with a preferential right to be carried) among many. More stations were controlled by fewer owners-following consolidation patterns being set in almost every other industry, from automobiles and airlines to newspapers, magazines, books, and motion pictures. In radio, when the limits on multiple ownership were dropped by the FCC [see p. 669), and those who had started stations during the quarter-century after World War I1 started to retire, the number of radio stationsthat one licenseemight own climbed from a maxin one imum of 12 AM and 1 2 FM to several dozen in the mid-lggos, and case more than 1,200 by the year 2001. With one licensee now allowed to own several radio stations in the same market, overhead and personnel costs could be, and were, slashed. Although station “localism” had been a goal of the Communications Act of 1934, during thelast two decades of the 20th century localism largely disappeared as stations became outlets for national programming. Without governmental or public pressureto present more expensive local programs,
11.2 Stations and Delivery Systems
611
fewer stations did so. Television stations made most of their profits from selling time on inexpensive network or syndicated programming-actually, selling the attention of their audiences to advertisers-and now usually considered profit, rather than the “public interest, convenience and necessity,” as their only goal. Many radio stations wound upcarrying the satellite transmissions of a disk jockey from some comfortable clime like California, losing most sense of location or culture, since they all sound much alike. Broadcast programming-and, in another sense, broadcasting’s audiencesnow were commodities.
-
11.2.1 Radio
As detailed in Appendix C, table l-B, the number of U.S. radio stations grew from 10,068 in 1987 to more than 12,500 by the turn of the century, more than 2,000 of which were noncommercial FM outlets, By 2000, more than 60% of all radio outlets were FM. While FM stations were sold for higher prices than AM stations, few now believed that radio stationownership was the way to makelots of money. The distinction between AM and FM stations became one of format rather than technology. Virtuallyall new radio receivers tuned bothAM and FM channels, and many received other services, such as government weather forecasts or the audio signal from VHF television. Because of its old bugaboos-static, especially during summer thunderstorms, and limited audio bandwidth, which ledto lower sound quality-a large proportion ofAM stations, particularly in larger communities where there was competition, were formatted as all-news or all-talk stations. Most FM outlets, on the other hand, aired various kinds of popular music-and often found it hard to convince audiences that their playlist was different from other stations’. During the long-running 1990s bull market on Wall Street, the price of buying almost any broadcast station grew farbeyond theactual value of land, facilities, and even the traditional measure of “good will.” Family owned local facilities, such as KING, Seattle, or KTVK,Phoenix, were too attractive to remain controlled by individuals no matter how muchsome family members would have desired to stay in the broadcasting business. Brokers and buyers of stations (and cable systems) tended to look for the synergy of combined management, as well as whatever dollar figure represented long-term valueand then would bid whatever bonanza they thought it wouldtake to acquire the property. Amid the commercial growth, the number of noncommercial educational stations also increased. Also, stations broadcasting more than 15 hours of religious content a week doubled from 1980 to 1995 and roughly half of the 1,500 religiousstations were commercial. Although it waseasier to use tradepress figures to calculate the price of monopoly cable systems (based on an amount representing the system’s number of subscribers and what thebuyer thought each subscriber would
612
Chapter 11 A New Marketplace (1988-2001)
be worth), fuzzier formulas were devisedfor radio and television stations, each of which tended to have unique factors of audience, facilities, and location. Often, the purchasewas merely to obtain a facility and not an existing audience-since a new owner would quickly substitute his or her own judgment for earlier decisions onprogramming formats. After the FCC allowed the same licensee to own more than one station in a market (a privilege extended to television in 1999),an owner could minimize costs and competition and maximize profit. Nobody worried about FCC rejecbe for other tion of a transfer, or the possibility that licenses would revoked reasons. As sellers walked away from the table with enormous sums of money, new buyerscame armed with plansfor cutting personneland other costs in order to meet interest payments on the money borrowed for the purchase. Because of FCC deregulation, availability of satellite program services, and the continued trend toward automated operation, the number of radio station employees didn’t rise as fast as did the number of stations. And many of these employees were kept on a tighter leash, with mandatory playlists being common. Continuing the process started in the 1950s of airing formats rather than programs, fully automated or satellite-provided content became the norm. Few diskjockeys, even in larger markets, were given the opportunity to achieve the fame-andincome-ofd.j.sof past eras, with theexception of a few superstars such asHoward Stern and Don Imus. Both Imus and Sternwere syndicated to many radio stations, andeven had their programs appear ontelevision. In 1999,harkening back to theoriginal licensing principle of localism, the FCC raised the potential of a new class of non-commercial low-power FM (LPFM) stations. Paralleling the notion of low-power television (see pp. 503-504),and reviving the short-lived Class D 10-watt educational FM stations licensed in the middle of the century, the commission proposed various classes of LPFM-some propagating as much as 1,000 watts(service out to as far as 20 miles] and some micro-FM stations using 10 watts (covering two miles or so) or even less. The smaller stations would cover only geographically limited communities or neighborhoods, and would be very inexpensive to build. Thisproposal grew out of thousands of requests for means to serve small and localized audiences. It also was intended to regularize some small, illegal “pirate” operations in numerous localities, and reduce the drain onFCC funds being spent to eliminate them. The LPFM proposal led to a firestorm of conflict. Those in favor of localism and diversification of voices on the airwere strongly in favor. Community, cultural, and educational groups-and some retailers-thought of this as a chance to get into broadcasting, inexpensively, Existing FM broadcasters (including many noncommercial stations serving rural areas through repeaters), who sawinterference and inefficient use of spectrum or audience-reducing competition, were just as strongly opposed. Debates were fierce, and no-holds-barred lobbying of Congress made it clear that
11.2 Stations and DeliverySystems
613
this plan wouldn’t be implemented quickly. Late in 2000, congressional action severely limited the numberof possible LPFM outlets. This act created its own backlash in 2001 as activists did their own lobbying. 11.2.2 Television
.nnaa
Few television stationsthere were 1,600 on theair by 2001-were willing to specialize as much as radio. As before, the typical 1990s television station still was a network affiliate that produced little of its own programming. Operations were more businesslike, and most executives were good company men andwomen-willing to move from jobto job and city to city was a necessary without objection. As the numberof owners dwindled, this strategy for a long(er) career. While this gave multiple station licensees more managerial flexibility, it made it less likely that employees would learn enough abouta community to become a major player in it. One-time broadcaster professionalism was giving way to managerialism within a shrinking number of conglomerates. Corporate headquarters staffs increasingly made many decisions that previously had been made at the local level, including what equipment to buy, and when, what contributions to make to which local charities, what to charge for commercial time, and what kindof spin to put on problems that arose. While this was efficient in some ways, it could also slow the decision-making process, adversely affect morale, and make stations more and more alike. Conventional industry belief continued to be that the station that had the highest rating for the local evening news would be likely to have the highest ratings for the rest of the evening prime timeperiod. This wasn’t always true-if a network were having a particularly badyear with its prime time programs, its affiliates would be likely to suffer as well. The decrease in number of locally originated programs gave rise to a corps of freelance directors and producers who might be brought in if the station felt it had to cover some special event-a charity telethon, the visit of a dignitary, a special holiday celebration, a sports match of local interest-that further reduced the number of technicians and creative people on the station payroll. Cooperation among stations for such coverage was greater than before, since most managers considered it to be merely the paying of dues, without any real impact on the bottom line. As a result, one might see an unapologetic WCVB in Boston-a station that at one time was famous for its locallive broadcasting-cutting away from the middleof the Boston 4th of July fireworks display for a commercial (to be fair,this coverage was jointly produced by WCVB and theA&Ecable network). Following in the footsteps of the networks, larger stations might make arrangements with such partnersas major local newspapers andeven foreign broadcasters such as the BBC to conduct polls on the 2000 Presidential election campaign.
614
Chapter 11 A New Marketplace(1988-2001)
As discussed on pp.602-606, the mostsignificant event of the 1990s for most television stations was approval by the FCC of digital high-definition television. The logistics of such a move-for example, there aren’t enough qualified riggers to build all the new towers that will be required within the few years allowed-are costly, as is thepossibility that thepublic might decide not to buy expensive new receivers. This expense, coupled with the increasing competition for audiences and advertising by cable and the Internet, reduced station profitability. The same ownership rule changes that affected radio stations also affected television, but later and to a somewhat lesser degree. To all intents and purposes, until the very end of the 1990s a given licensee could own no more than one station in a market (with theexception of some educational licensees), although under the 1996 Act a single owner could operate stations serving up to 35% of the nation’s population. 11.2.3 Cable Systems
1111111111
Although the cable televisionindustry-nowthe dominant means of television distribution, to more than two thirds of all American homescontinues to try to position itself before the public and the Congress as an assortment of nearly 11,000 “mom and pop”small business operations, in reality the ever-larger number of cable subscribers is being served by fewer and fewer MSOs (see Appendix C, table 9-D]. In the Spring of 1997, Tele-Communications Inc. (TCI), headed by John Malone, alone served nearly a quarter-more than 14.3 million-of the 60.9 million cable subscribers constituting 62.8% of U.S. television households. But mergersand sales in this industry occur almost every week. In the Spring of 1999, TCI became a part ofAT&T. In 2001, the takeover of the entire Time Warner conglomerate by AOL further changed the face of the industry, although Wall Street and Washington regulators seemed less enthusiastic about this merger than the principals. More mergers were to come. The choice of what programs are available is in the hands of very few entities. Both the number of major content providers-cable “networks”and the number of MSOs is shrinking. In 1999, the top five cable multiple system operators in terms of size (Time Warner,ATT Broadband, Mediaone, Comcast, and Cox) combined served 36.8 million homes, roughly three fifths of the total, and the top 10 served 73%-a figure that has fluctuated slightly, because of competition from DBS, disillusionment with higher fees, and other reasons. But then, in 2000, AT&T bought MediaOne for $58 billion, bringing it up to theFCC’s mandated-but soon overturned by the courts-cap of 30% of American homes, and Comcast, in mid-2001, in turn offered some $56 billion to buy AT&T Broadband. The top 50 cable multiple system operators now serve 95% of U.S. cable subscribers. Nearly three quarters of cable homes also subscribe to one or more pay cable units,
11.2 Stations and DeliverySystems
615
with many of them specifically addressable by the cable operator. Although the price paid per subscriber when cable systems were sold continued to rise, it didn’t slow the industry consolidation. A rapidly growing number (2.7 million in 2000) also use cable modems to access the Internet. The number of channels available to the typical cable household also grew during the 1990s. Approximately 12% of homes (around a fifth of cable homes) had access to more than 70 channels in 1997 and, as systems were rebuilt, more became available. While only a handful of cable operators faced direct competition in their service area, all knew of that possibilitysince their equipment,from head endto service drop, was aging, municipal franchises were running out, and their reputation for service and reasonable pricing hadgone downhill. However, the price of cable service continued to rise. Holding a monopoly in almost every franchise area, and with federal law superseding state or local ordinances, thecable operator was free to raise rates without justification by increased cost of programming or technological advances. When the Telecommunications Act of 1996 (see pp. 667-670) reduced municipal and state control of cable and ledto price abuses, Congress stepped in again, placing a temporary freeze on most price increases at the basic tier (see pp. 619-624) of service that ended in 1999. Pay and pay-per-view prices, however, rise at the will of the operator. Many viewers were surprised to find that such popular channels as CNN or ESPN-originally found on the first tier (see below) of s e r v i c e h a d been shifted to higher cost upper tiers. Even more annoying to manysubscribersnnd to some cable networks or program services-was another clause inserted into federal law at the instigation of local television stations. It mandated that each cable system must carry all local stations. While the rules for what constituted a local station were complex, the effect on older and thus smaller cable systems was to reduce channels available for popular program services. In some instances a system had to consider stationsin two markets (such as Washington and Baltimore) as “local,” forcing duplication of the same program on two or more channels. If this happened, a local station that aired nothing more than another home shopping service could “bump” public services like C-SPAN I and 11, CNN, or the Weather Channel off the cable system. This situation ledto heated negotiations over which services would be retained, with C-SPAN having some political leverage since it carried proceedings of Congress live, but nobody was really happy. (The possibility of profitable channels like HBO or M W or ESPN being dropped was never considered). Systems in markets with a large number of foreign language speakers found it economically necessary to include atleast one channelin that language-typically Spanish, but possibly Japanese or some other tongue-further exacerbating the shortage of channels, An extreme example of the effects of channel shortage occurred in New York City in 1996, when Fox tried to persuade the cable operator (Time
616
Chapter 11
A NewMarketplace (1988-2001)
Warner) to carry its new all-news service. Time Warner claimed that there were no empty channels on its “saturated” (full) system. Fox argued that Time Warner was protecting CNN and other services in which it helda financial stake, and secured thepolitical backing of the mayor, who wasanxious to increase the number of communications companies headquartered in New York. Since the City franchise gave it a channel to use for public/ governmental programming, the mayor decided to turn this over to Fox. Now it was Time Warner’sturn to cry foul. Eventually, after much publicity, legal fees and newsprint, the courts held that the mayor had overstepped his authority and Fox lost out. In another battle including the same New York cable systems, Time Warnercut off ABC programs fora few days early in 2000 while negotiating the question of payment. The FCC stepped in quickly and reinstated ABC-but not before many prospective viewers had missed an episode of Who Wantsto Be Q Millionaire. This wasn’t merely a local fight, since two of the largest entertainment business companies were involved-Time Warner and Disney/ABC. Atthe time, the FCC was considering AOL‘s plan to take over Time Warner,
11.3 Networks and Program Services-Are More Better?
mamm
While the number of corporations that operated networks or other programming and distribution services showed littleif any growth, the number of program sources that they provided continued to expand. 11.3.1 Radio Programming Services
I I
With the stellar exception of National Public Radio (see pp. 627-629), the traditional radio networks essentially remained mere news outlets. Although satellite syndication services offered virtually all musical formats, stations that wished to broadcast news on a regular basis found that the older radio networks-and newer competitors such as Associated Press audio-were glad to sign them up. Suchservice was considerably cheaper than operating one’s own newsdepartment and national connections were particularly useful for political or sports events. A special case is Westwood One,which started out in 1974 as a radio program producer by syndicating a popular music program hosted by Casey Kasem. Overthe years, WestwoodOne has gobbledup a number of individual stations, the Mutual network (1985), NBC radio (1987),and Shadow, a multicity traffic (and news) source for local stations. In 1993, the company purchased Unistar and turned management over to Infinity Broadcasting, then the largest station owner. Today, it is a rare market that doesn’t have at least one station receiving satellite-distributed music programming from Westwood One. A quarter of Westwood Oneis owned by CBS,demonstrating that the relationships in this part of the industry are morethan merely “complex.”
11.3 Networks and Program Services-Are MoreBetter?
617
11.3.2 TelevisionNetworks
tamlmm
Because of the proliferation of video program services-including any set owner who canprogram a VCR-it is increasingly difficult to characterize the plethora of national networks and program syndication services that serve stations and cable systems. But as cable and satellite services supplied U.S. households with more programming choices, the number of viewers tuned to the three oldest major networks (ABC, CBS, NBC)steadily declined. Although fully 90% of households were tuned to one of the three during prime time in the early 1980s, their audience proportion had declined byhalf by theend of the 199Os-to only 40% of the television audience by 2001. Why, then, were networks still attractive to advertisers? The real story was not that theproportion of the audiencereached by ABC, CBS, and NBC (and, toa lesser extent, Fox, and to a much lesser extent, Warner Brothers (WB) and United Paramount Network (UPN)) was in decline-it was that the overall number of their viewers remained so large. Becausethe viewership for most cable-only channels often was very small, the networks remained the only way of efficiently reaching a mass audience. The population of the United States was growing steadily-it has more than doubled since 1940-and thus network time cost advertisers just about as much (on a cost-per-thousand basis) as itdid inyears past. This was in spite of cable, in spite of the VCRs now found in four fifths of television homes, in spite of multiple sets in the typical home, and in spite of viewer dissatisfaction with the concept of “network programming.” At the same time, the glamour and power of running a television network has ended. Few today can name the executives running ABC, CBS, and NBC-in contrast to the widespread public recognition of a Sarnoff (NBC-RCA),Goldenson (ABC), or Paley and Stanton (CBS) decades earlier. Program chiefs are as unknown to the public as the “suits” in the boardroom. In part, this decline in image and prestige can be traced to the fact that all threeof the major networks have changed ownership (usuallymore than once since the mid-l980s), and have been acquired by larger firms. As described on p. 512 NBC merely came along for the ride when giant General Electric acquired RCA in December 1985. CBS, which suffered under the cost-cutting control of Laurence Tisch of Loew’s Theaters, was purchased by Westinghouse in November 1995. ABC, which had earlier merged with Capital Cities, a hard-nosed station ownership group, was purchased by the Walt Disney company in 1996. In September 1999, less than three years after Westinghouse had acquired CBS, Viacom, originally a syndicator of CBS programming partly owned by CBS until divested under a 1970 FCC rule, took over CBS in a $37.7 billion dollar merger. Viacom chief Sumner Redstone had started in the movie theater business in New England, and later expanded into video rentals (6,000 Blockbuster stores), cable (Nickelodeon, MTV, VH-l), motion picture production (Paramount),
618
Chapter 11 A New Marketplace (1988-2001)
book publishing (Simon & Schuster), and broadcast (UPN) programming.In 2000, Viacom bought Chris-Craft Industries’ 50% interest in UPN, a move that threatened the FCC’s one-network-per-owner tradition. Each of these purchases cost the buyer many billions of dollars. Some buyers, such as Disney,hoped for the synergy of being able touse CapCities/ABC to promote other activities-such as Disney animated and live-action films or the Disneyland and Disney World amusement parks. But such synergy might have more negative effects.Since Disney now had the insidetrack in getting programs onto ABC, there was little incentive for other production companies to try, allowing possibly less well written and produced programs to be aired. GE and Westinghouse (which hadbeen among the earliest pioneers in radio, and whichtogether had foundedRCA, see pp. 57-62) and Viacom merely sought another profit center. Most of these purchases led to further rounds of cost-cutting at the networks-in 2000 CBS moved the last few newscasters out of their headquarters at “Black Rock,” and all networks had pared down their productionstaffs-and a further decrease in the morale of their news divisions. The three newer commercial networks all are associated with motion picture studios. Fox, owned by Rupert Murdoch’s News Corporation, became a force early in the 199Os, programming head-to-head with the first three by the endof the decade (it hadonly programmed a few hourson four nights of the week as recently as 1992). Allied to the 20th Century-Fox movie studio, itsoon picked a niche for itself, appealing to viewers in their 20s and 30s. Some Fox programs, such as The Simpsons, Married.. . with Children, Ally McBeal, Beverly Hills 90210, and X-Files, were among the top-rated on theair. Fox,claiming that itdeserved some leeway since it was so young, presented almost no news (although some affiliates did) and was successfully able to ignore politics during the 1992 and 1996 elections. It started a news division late in the 199Os, after the potential income from news “magazine” programs became evident. Reflecting owner Murdoch’s political colors, the newsdivision was headedby conservative political operative Roger Ayles-although Fox claimed that itwasn’t politically biased. By 2000, Fox accounted for almost 10% of the total audience-not bad for an organization founded in 1985. Neither WI3 (Warner Brothers) or UPN (United Paramount Network) were as successful in developing new programs and cultivating an audience. Few cities had enough stations to allow affiliation with the fifth or sixth (or even the fourth,Fox) network. Nevertheless, with the futurelikely to bring even more channels to the home, any entity with programming in its stockroom and the ability to produce more was likely to becomea good investment. Since the program chiefs at the various studios and networks now tended to report through more layers of executives at the network and the parent corporation, they became correspondingly faceless to the general public. A very few, such as Brandon Tartikoff (head of programming at
11.3 Networks and Program Services-AreMoreBetter?
619
NBC 1980-1991), were highly respected in the industry-but largely unknown outside. Only when an unanticipated firing or a major upheaval occurred would the news mediapay any attention. Althoughdecisions made for personal reasons rarely are questioned by top management when they are profitable to the network, in 1997 the 33-year-old chairman of ABC Entertainment, Jamie Tarses (earlier in charge of prime time series at NBC, and whose association with the popular Friendsseries had given her clout),was effectively demoted partly because she had given a key spot on ABC’s schedule to a program produced by her boyfriend. She also didn’t order any pilots from Dream Works, where her ex-husband worked. She was forced out two years later-to join a long list of top network executives who were powerful for a few years but made no lasting impact. Because networks made less money than their owned-&-operated stations, one program might make the difference between profit (and bonus) and loss (and dismissal). Partly to establish revenue streams, networks tried other options including merchandising associated with programs, cable networks (such as CNBC and MS-NBC, or a number of cable networks owned by Fox), selling program videotapes, and more overseas program distribution. Just as the motion picture industry nearly a century earlier, television was learning that if costs could be recouped domestically, then anything earned abroad was pureprofit. 11.3.3 Cable Program Services
I
The numberof new cable networks grew more slowly in the 199Os, because few cable systems were willing to make the investment necessary to accommodate more channels. There was, however, a brisk trade in merger and acquisition of existing cable program channels. Few newservices made much impression on the public in the 1990s. Some, such as the History Channel and the Discovery Channel, successfully mounted major publicity campaigns to get viewers to persuade their local cable operator to carry the channel. But in general, the typical cable entertainment mix-classic offnetwork series, made-for-cable movies, some exclusive specials and series, occasional series that had just been dropped by a network, and programs pushingthe envelope of titillation (such as Showtime’s Elvis Meets Nixon)-changed little from system to system. Most cableservices are grouped into tiers. A tier is a level of service, often tied to a level of price. These vary in each cable system, typically including basic (local on-air stations and a few services such as home shopping and TBS); family (or second) tier, which might include Discovery, CNN, and C-SPAN; and premium-such as HBO and other first-run movie channels-for which anextra monthly charge is made. These categories are subject to change, as different content becomes available. Several lower-tier
620
Chapter 11 A N e w Marketplace (1988-2001)
Cable’s Plethora of Channels A s of late 2000, the Cox Cable system in Fairfax County, Virginia (a suburb of Washington, DC) offered this selection over i t s 120 channels. Some services share channels (and are shown as part-time in t h i s list). Such a system was cutting edge when it was first built in the mid-1980s by Media General, but i s now approaching t h e average. As Cox rebuilds t h e system to a greatercapacity and digital technology, dozens of additional channels are being added. I
Local “Must Carry” Commetelal Stations(8) WRC-TV, Channel4 (NBC owned-and operated local station) WTTG-TV, Chnnel5 (Fox owned-and-operated local station) WJLA-TV, Channel7, (ABC affiliate local station) WUSA-TV, Channel9 (CBS affiliatelocal station) WTMW (TV), Channel 14 (local independent station) WPXW-TV, Channel 15 (local PAX Family Television affiliate) WDCA-TV, Channel 20 (localUPNaffiliate station) WBDC-TV, Channel 50 (local Warner Brothers Network affiliate station) Local “Must Carry” Public Stations (5) Maryland Public Television, Channel 22 WETA-TV, Channel 26, Washington, DC WHUT-TV, Channel 32, Howard University WNVC-TV, Channel 56, Northern VirginiaCommunity College WNVT-TV, Northern Virginia Local Cable System Access and Origination(5) FairfaxAccessNetwork(communitybulletin board, public access radio) Fairfax International (non-profit public access) Fox Cable Access Corporation (local public access) News Channel8 (local cable news channel) Town of HerndonAccess Channel Local Cable System Government, School, College, and Library Channels (8) Fairfax City Government Channel Fairfax County Government Channel Fairfax County Public Library
Falls Church City Television Falls Church Public Schools Teacher Channel George Mason University courses Northern Virginia Community College courses Red Apple: Fairfax County Public Schools
Basic Cable Network Services: (66) News and Public Affairs (11) court TV CNBC (Consumer News Business Channel) CNN (Cable News Network) CNN Financial News CNN Headline News C-SPAN (Cable-Satellite Public Affairs Network) C-SPAN2 C-SPAN Extra (daytime hours) Fox News Network MSNBC Weather Channel Documentaries (10) Animal Planet (animal-related) Discovery Channel Discovery Health Food Network History Channel Home and Garden Televlsion The Learning Channel NASA Outdoor Life (part-time) Travel Channel Home Shopping Channels (5) Cable Marketplace (video classifieds) QVC Tour of Homes (real estate) Home Shopping Network Product Information Network
channels,includingTheFamilyChannel, Turner Network Television (TNT), and the USA Network, are occasionally producing madefor-television movies and other programming, including continuations of programs originally on the broadcast networks, such as Babylon 5 on TNT and new productionsof classics such asDon Quixote. By the late 199Os, many cable networks produced a substantial amount of this original programming. For example, The Family Channel produced atelevisionmovie, Mother Teresa, In the Name of God’s Poor,TNT
11.3 Networks and Program Services-Are
M ore Better?
621
Foreign Language (3)
Jazz Channel (part-time) The National Network (wrestling, movies, Arab Network (Arabic) sports) Telemundo (Spanish) Nickelodeon (for children) Univision (Spanish) Ovation (part-time) Music (3) , RomanceClassics Country Music Television Sci-Fi Channel (science fiction and fact) MTV (Music Television) TNT (Turner NetworkTelevision) Video Hits 1 Toon Disney(part-time) Religion (2) Turner Classic Movies EWTN (international Catholic network) TV Guide Channel: cable system program Trinity Broadcasting (religion, inspirational) listings For Women(2) TV Land (TV programs from1960s-l980s) Lifetime Urban Contemporary (news, sports, music, Oxygen comedy) sports (2) USA Network ESPN The View (Cox information, services) ESPNP Superstations (2) Pay Channels(12) WGN, Chicago Cinemax WTBS, Atlanta Cinemax-More Movies and Other (26) ESPN News American Movie Classics Fox Sports World Arts and Entertainment The Golf Channel Bravo Network (arts and movies) HBO Cartoon Network HBO Family Comedy Central HBO Plus Cox Demand: schedule information for pay- HBO Signature per-view The Movie Channel Disney Channel Showtime Entertainment Television Showtime 2 Fox Family Channel Pay-PetWlew Channels(9) FX (“bold, edgy“ movies, series) Total Available Channels: 120 HTS (‘“id-Atlantic’s regional network”) International Channel
produced Buffalo Soldiers, and USA Network produced Ms.Scrooge. This was pretty standard fare, produced on a strict budget, but starring wellknown actors in some casesreraldine Chaplin, Danny Glover, and Cicely Tyson in the three mentioned. Bravo and A&E (Arts and Entertainment) produced some original programming, such as a low-budget but highly popular daily Biography documentary program on A&E-and rebroadcast high-quality off-network programming, especially British mysteries, many of which originally had been first broadcast in the United States on PBS.
622
Chapter 11 A New Marketplace (1988-2001)
Feature motion pictures constituted the largest share of money-making cable programming.While lower-tier channels such as American Movie Classics, Flix, and Encore made many (mostly older) movies available, much more profitable were the so-called movie channels, including HBO [Home Box Office), Showtime, The Movie Channel, and Cinemax. These premium services usually were in the highest cost tier of cable service and often were lumped together under theterm pay cable. A smaller and even more expensive tier was “pay-per-dew,”which required payment for each film or sporting event, such as a heavyweight boxing match. Although Showtime, The Movie Channel, and Cinemax generally restricted themselves to the repeated showing of (sometimes the same) motion pictures, HBO received praise for some of its lavishly produced rock concerts, documentaries, and dramasincluding the highly praised Sopranos about a Mafia family.While the hard core of the Disney Channel audience were parents and their children,it frequently provided high-quality programming forother viewers. Cable services such as the Family Channel (originally owned by the PTL religious organization, but now owned by Disney), Lifetime, USA Network, TNT, and Turner Broadcasting System [Superstation W B S in Atlanta) generally programmed old network series. TBS/TNT aired many feature filmsincluding a lot of westerns-from the huge Turner film library. Lifetime (jointly owned by Disney and Hearst and reaching many homes because it typically was on a lower tier) claimed to be concentrating on programs for women, to contrast with thestereotypical use of sports channels by men, but a look at its content-at one time including reruns of the superbly written, directed, and acted but violent Homicide: Life on the Street (dropped by NBC in 1999)”makes one wonder if it really is focused asadvertised. Another category might be labeled “specialty”or “genre” programming, and is aimed at fans or members of a particular group. Spanish-language programming on Univision and otherservices, other foreign language services, and Black Entertainment Television (BET) fall into thiscategory. Concentrating on a specific kind of content are the Science Fiction channel, Comedy Central, the Cartoon Network, and The Playboy Channel (a premium channel thatwas restricted on most cable systems to the hoursafter ten atnight). E! The Entertainment Channel acts to some extent as a People gossip magazine for those interested in entertainment, but also airs the raunchy Howard Stern disk jockey show. Some informational channels, such asCourt TV (which hada loyal audience to its live coverage of some of the most interesting trials of the decade, but by the turnof the century apparently was just waiting to be sold, devoting more and more time to policeoriented off-network series, including Homicide), American Health, The Learning Channel, Discovery Channel, History Channel, Golf Channel, and Home and Garden channels might be placed in another category. Although not as salient as before, partly because of scandals, and the aging of some well-known evangelists, there are several religiouslyoriented cable channels with loyal audiences, particularly popular in the South. Also
11.3 Networks and Program Services-Are MoreBetter?
623
aimed at a niche-in this case, sports fans-were highly popular services such as ESPN and the Sports Channel. Duringthe professional football,baseball, and basketball seasons-which, thanks to media coverage and indoor sports arenas, had begun to overlap-these channels were in tremendous demand, although there were enough sporting eventsaired on the broadcast networks to keepmany fans happy. Congresshad mandateddecades beforethat chanthe baseball World Seriesnot move to pay-per-viewor some other cable ne1 that a large number of their constituents could not receive. Political pressure effectively forced some football gamesinto the same category,including the Super Bowl and many traditional college matches. With the exception of the premium-cost Disney Channel, Nickelodeon, and some programs on TheLearning Channel and Discovery, there was little increase in the amountof programmingintended for children. Indeed, there was little specialty cable programming for the 22% of the U.S. population that is younger than 15 years of age-or, for that matter, the segment (now 27% of the population) that is 50 or older. Informational channels are a particularly important category of cable services. These include Turner’s Cable Network News (CNN) and CNN Headline News, various financial services, the Weather Channel, and CSPAN I and II. In someareas there are local and regional all-news channels such as New York‘s Channel One, New Jersey’s Channel 12, and the New England Cable News Network. Newer to the genre are CNBC and MS-NBC, a looking to the future of computers-as-entertainmenthnformationcombination of NBC and Microsoft. C-SPAN, under the direction of Brian Lamb from its start, hasa particularly important role to play as the carrier of live coverage of both theHouse and the Senate. It has always been funded by the cable industry, and hasmore than met the high hopes the industry hadfor its public relations value. Other C-SPAN programming comprises congressional hearings, speeches, and news conferences, Prime Minister’s Questions from the British House of Commons (which viewers who appreciate debate and invective might classify as entertainment), and a Booknotes program emceed byLamb that spawneda best-selling book of its own. Although the industry may think of home shopping channelsas informational, many whoare addicted to this form of shopping thinkof it also as entertaining. Those, such as Barry Diller, who served as program chief at different times at all threemajor networks, looking toward the futureof the cable industry think suchprograms are the futureof the industry-because, unlike any medium limited to advertising, home shopping channels have immediate, hard dollar feedback as to whatsells and howbest to sell it. There has been little recent change in the financial structure of the cable program industry. Pay-per-view uses a box office approach and the pmmium channelsget so many centsa month for each subscriber from the cable systems. However, other channels get some incomefrom cable systems for carriage and some from advertising. Although advertisers tend to look for larger audiences than cable cansupply,some cable channelssell
624
Chapter 11 A New Marketplace (1988-2001)
national advertising and some-such as the Weather Channel, with its many addressable weather forecast areas-can supply a package that would appeal to local stores and services. Most such local advertising, however, is sold by the cable system directly. In a few cases, such as home shopping services, the program provider will pay the cable system for carriage. Because many cable systems and cable program providers have ownership relationships, itis difficult to draw hardand fast rules.
11.4 Public Broadcasting: Hanging On Outwardly, public radio and television appeared successful and healthy. The number of stations continued to grow slowly-to more than 2,000 FM (about a quarter of which were affiliated with NPR) and nearly 375 television outlets by the start of 2001. Some programs had audiences large enough to show up in the ratings books, and public affairs programming was important enough to arouse considerable political controversy and antagonism. But this health was, in many instances, more apparent than real. Federal funding for the Corporation for Public Broadcasting (CPB), cut heavily by the Reagan and first Bush administrations in the 1980% was not restored during the two Clinton administrations in the 1990s. As a result stations had to seek funding for programming, equipment, and facilities from other sources-and, in the process, became morecompetitive. 11.4.1 Letting Go
1111111
The licensees for some noncommercial educational stations gave up, and sold their stations to bring in money for other purposes. WNYC, licensed to the City of New York for nearly three fourths of a century (it first went on the air in 1924), was sold for budget-balancing purposes in 1996. WNYC-TV went to commercial interests for several million dollars, but WNYC(AM), an NPR affiliate and program source, was sold to the nonprofit Friends of WNYC for a manageable price, thus defusing much of the conflict that otherwise would have occurred. While those within the listening area of the station provided most of these funds (to be paid over several years), the national reputation of the station led to some contributions from non-New Yorkers. WNYC(AM)continued tosupply national programs such as On the Media and local interview and telephone programs, while WNYC-FM continued mostly to air music. Not so fortunate, however, were the listeners to stations such as WCAM (City of Camden, New Jersey, which was sold to a commercial firm in the 1970s), WDCU(FM) (University of the District of Columbia, sold to C-SPAN in 1997), or WFBE(FM) (Board of Education, Flint, MI, sold to Liggett Broadcasting for $6.8 million in 1997). Some large noncommercial stationsnotably WBUR, Boston-extended their coverage bytaking over smaller and hitherto independent ones.
11.4 Public Broadcasting:HangingOn
625
Starting in the1970s and accelerating in the1980% a number of universities decidedto turn their stationsover to the institution’s public relations department, which then hired professional broadcasters in order to enhance the institution’s image. This had the effect, however, of taking away a major laboratory resource from broadcasting students in those schools. Among the many stations making this move were KUSC (University of Southern California, Los Angeles, originator of the nationally syndicated Marketplace program), KLON (University of California, Long Beach, famous for its jazz programming, and now licensed to a local nonprofit organization), WRTI (Temple University, Philadelphia), and WBUR (Boston University). WBUR, a major source of NPR news programming, in the1990s started programming several small FM stations and then acquired a larger AM station on Cape Cod, which effectively expanded its listenership in that area. The Pacifica Foundation stations continued their tradition of internal strife. These venerable non-NPR affiliated stations, in markets such as San Francisco, Los Angeles, and New York,attracted audiences thatsometimes were fanatical in their support. In 1999, the national board of the Foundation decided to exercise more control over its KPFA in Berkeley-and ran into a hornet’s nest of staff and audience resentmentand protest. Localism and program experimentation were fetishes at the station, and cutting back to archived programs was thought to be a slap in the face of the audienceand a possible warning that the stationwas to be sold. The fight has been bitter and at theexpense of both staff and audience.Regardless of the legal ownership and eventual outcome of the Pacifica dispute, such changes in public radio caused nostalgia among those who remembered a lessstructured, more venturesome side to noncommercial. radio. Now that it was hard to tell the difference between a commercial network executive and one from a major NPWPBS station, and truly independent licensees such as Lorenzo Milam (see pp. 471-475) were no longer on the air, many listeners felt that stations such as Pacifica’s “belonged” to their communities. If enough of the proposed low-power FM stations were authorized, well and good-but few listeners wanted existing full-power public stations in theircommunities to disappear. 11.4.2
The Eternal Funding Problem
Those stations that were part of one of the national public broadcasting networks-National Public Radio (NPR) or Public Broadcasting (television) Service (PBS)-tried to raise local money to replace that previously provided by CPB. This effort led to longer and more frequent “begathons”-a week or more of pleas for contributions, often several times a year, with programs cut short(or skipped altogether) to accommodate the pleas. Memberships brought program guides, discountcards for local merchants, offers of tours of the station-and many requests for additional funds. In markets
626
Chapter 11 A NewMarketplace (1988-2001)
with several public stations, one might choose which to support by one’s preference for the premium gifts offered-umbrellas, coffee cups, video or audio recordings. During “pledge” weeksor months, someof the most popularprogramming of past years-The Three Tenors, Peter, Paul and Mary, British dramas, etc.-was presented. Personalities with whom the public identified made the “pitch” and local volunteers answered the phones. Some stations devoted many days of their scheduleto auctions of merchandise and services provided bycompaniesdesiring free publicity. Thesefundraising efforts had two goals: to attract members, who now typicallypaid $60 for a minimum membership that had been priced at only $25 or $30 in the mid-l980s, andto be able to show corporations, foundations, and individuals whomight be persuaded tounderwrite programs or otherwise provide large sums of money that membersof the audience wereloyal and dedicated enough to contribute.Although only a small minorityof public radio stations were “CPB qualified” (see pp. 517-523) and part of NPR, they were the larger and more popular operations.However, more than a thousand other public stations had toraise money in the same way. A few public radio stations, in reaction, contacted the list of those who had contributed previously, and offered a deal: if you contribute now, we won’t have a full-fledged fund-raiser, and can stick to our programming. When combined with the on-air promotion of matching gifts, this could cut down substantially on the amount of on-air time given over to the begathons. WBUR (Boston), one of the first to try this approach, was able to meet its goals in 1997 with only three hours of on-air fundraising. Several others, including Washington’s WETA, had “on-line” days with just a few announcements encouraging listeners to go to a Web site to contribute, leaving the station’s programs largely intact. Another approach to raising money, considered suspect by those who believed that the noncommercial principle of public broadcasting was important, was the “enhanced underwriting” approved by the FCC in the 1980s. This extended the on-air description of those who supported,or underwrote, a program-and the product or service they represented. Originally, such an announcement only would say “Supported by the XYZ Corporation.” But later, the announcement wouldgo as far as “Supported by the XYZ Corporation, manufacturer of fine cooking gadgets for the home, available at your neighborhood supermarket”-followed by a lengthy description of the product or service. With the door propped open, enhanced underwriting announcements got longer and longer and essentially became indistinguishable from commercials. While the FCC’s limited experiment in out-and-out commercialism had been rejected in the early 1980s, it seemed that it was acceptable under another label. Commercial stations continued to grumble about unfair competition. A combination of underwriting announcements, provision for on-air fund-raising and enhanced underwriting announcements, andpromotions for other programs reduced
11.4 Public Broadcasting:HangingOn
627
program length for some PBS half-hour programs to the 22 minutes familiar to viewers of commercial television. Those stations that originate programming have other sources of income. First, like any nonperishable product, the program might be sold or leased to others-such as PBS or NPR or some other group,including foreign broadcasters. Second, there is a steady market for scripts and for video and audio cassettes of programs (which can be sold at relatively high prices and which receive on-air promotion at the end of the program), which cost the producers nothing. Third, it is possible to package several programs of a series and sell them (or, in some cases, give them away as premiums during on-air fund-raising campaigns). Fourth, many programs-including those for children-can offer merchandising tieins, often sold in stores. Usually, rights to produce these items-such as Barney dolls-were sold by the programmers to otherfirms specializing in such items. In the mid-1990s, when the CPB budget was being debated, various members of Congress wondered why public broadcasting got so little of the merchandising money. As a result, some contracts were rewritten to public broadcasting’s benefit. Fifth, advertising in program guides, and commissions from sales of CDs and audiocassettes made available through the NPR Recorded Music Service. If there were other ways to make money-books, toys, music, or even seminars such as Louis Rukeyser’s seminars on making moneyin thestock market-somebody in public broadcasting was, or soon would be,exploring the option. One fund-raising technique that might not be obvious to the average listener is in the sale or exchange of subscriber mailing lists. “List brokers” findthatpublic broadcasting station subscriber listscanbereadily sold-and that the stations, in turn, are always looking for good lists for their direct mail subscription solicitations. In 1999, however, when it became known that a few stations had exchanged lists with political party committees (primarily but not exclusively Democratic) Republican members of Congress were outraged. Heads rolled, and prohibition of such practices was proposed in the House ofRepresentatives, which had the leverage of federal funding approval to hold over the stations’ heads. 11.4.3 Public Radio Programs
Programming on public radio changed very slowly. Some stations still carried some in-school broadcasts, children’s programs were a local staple, and classical music or jazz found a commercial-free home. But more than 350 stations got much of their major programming fromNPR. Affording some competition for NPR was Public Radio International (PRI, previously called American Public Radio, an outgrowth of Minnesota Public Radio). The public rarely realized that theirlocal NPR station might get some of its programming from PRI,in spite of on-air identification. One
628
Chapter 11 A New Marketplace(1988-2001)
of the most popular public radio programs was the telephone-in Car Talk (featuring “Click ‘n’ Clack,the Tappet Brothers”-Tom and Ray Magliozzi, one of whom actually ran a garage). Car Talk dispensed information, opinion, and ad lib humor on everything from how to keep a teenager from wrecking the family car to troubleshooting engine problems. It had a particularly active “shameless commbrce division” from which one might order a widevariety of promotional merchandise. Garrison Keillor’s A Prairie Home Companion (see p. 519) retook its old name after a couple of seasons in the late 1980s calling itself The American RadioTheater. This live musicalvariety program, performed in front of a large audience in a theaterin St. Paul, Minnesota,or on theroad, stuck to itshighly successful formula. Fans of the show listened notjust for the music, but also for the sly humor of the pretend commercials and the often-poignant News from Lake Wobegon (“where all the women are strong, the men are good looking and the childrenare above average”). National Public Radio’s most important programming, however, remained news and public affairs. Throughout the day, one minute after the hour, a headline newsservice provided an up-to-date account of domestic and foreign news often overlooked by the commercial news services that were concentrating more and more on crime and disaster. Several hours a day were devoted to Morning Edition, Talk of the Nation (a telephone-in program), and thelong-running afternoon All Things Considered (affiliates could broadcast up to two hoursof ATC, although many of the features and minidocumentaries wouldbe repeated, often more than once). All Things Considered (copied from the excellent but less ambitious Canadian Broadcasting Corporation’s As It Happens), nailed down the 5 P.M. slot on most NPR stations soon after its debut in 1971.(It now starts at the beginning of drive time, 4 P.M.,and there is a Weekend Edition.) Although Bill Siemering, its originator, went into station management, the ever-changing cast and crew became familiar visitors to millions of homes. Several of ATC’s on-air staff-such as John Hockenberry, Cokie Roberts, and Linda Wertheimermoved full or part time to the commercial networks, with Roberts and Wertheimer among the more influentialWashington reporters. Talk ofthe Nation is actually two programs. During the first four weekdays, each of its two hours typically is devoted to a special current topic, with guest experts eventually giving way to callers. On Science Friday, however, the topic is always science-related, and covers a wide variety of topics that laymen find interesting. Another NPR program, Fresh Air, with Terry Gross, attracts a substantial audience to her superb interviews with figures in the arts, music, and current events. Many stations created new programs, in the hope of persuading other stations to share the cost-or even to make a profit. Most, of course, go nowhere. But some locally produced programming is aired over the full NPR network (such as Car Talk from WBUR), or syndicated to a smaller lineup of stations (such as Marketplace from KUSC). However,the hoped-for
11.4 PublicBroadcasting:HangingOn
629
Whilethe excessively sweet nature of thedinosaurstar drove some adults up the wall, Barney and Friendsbecame a public television staple in the 1990s. Popularity o f programbased products raised questionsCongress in as to whyPBS did not sharein more of the income fromsuch sales. S
I
benefits to be gained from makingtheir programs attractive to other stations could be a two-edged sword: when The Connection, with Christopher Lydon, started to be syndicated from WBUR, making the program less focused on theBoston area, neither Bostonians nor other listeners were pleased. In 2001, Lydon’s desire for Connection ownership came into conflict with management’s desire to keep syndication receipts for the station, resulting in the departure of the entireprogram staff.This wasa particularly clear example of the age-old conflict between creatively and financially-oriented people, with the listening public caught in the middle.
630
Chapter 11 A New Marketplace(1988-2001)
11.4.4
Public Television Programming
Television programming on PBS only received minor adjustments in the 1990s. P0.V (Point of view) sought out and aired original short films, an almost inexhaustible source of content. Masterpiece Theatre (renamed Exxon-Mobil Masterpiece Theatre,to give more credit to the corporate underwriter) continues to devote most of its broadcasts to high-quality British drama. New York 7Ymes essayist Russell Baker stepped into the shoes of founding host Alastair Cooke, a BBC overseas correspondent who hadbeen an American citizen since World War11. Similarly, when Vincent Price’s health failed,noted British actress Diana Rigg took over as host of Mystery, another program consisting mostly of British miniseries. While it is hard to find recent PBS programs that provoke the kind of American viewer attention given Upstairs, Downstairs and other programs of the 1970sand 1980s,overall quality remained high. Helen Mirren starred in several award-winning Prime Suspect mystery miniseries as an edgy Scotland Yard detective who had to devote as much energy to political infighting as she did to finding killers. Robbie Coltraine starred in Cracker, playing an overweight gambling (and boozing and womanizing) addict who also was a brilliant forensic psychiatrist-not to be confused with a 1997 American version, with a different cast, that suffered badly in comparison to the original. Three well-received plays by author/politician Michael Dobbs-House of Cards, To Play the King, and The Final Cut-featured Ian Richardson as Prime Minister, perhaps the mosturbane, murderous example extant of the corruptive influence of power. Although nudity appeared on PBS long before it was on commercial broadcasting in the United States, the language andthemes of some episodes of Cracker apparently were too rough for politically sensitive PBS, and were seen instead on the Bravo cable channel. When PBS aired a miniseries called Tales of the City, it garnered acclaim, large (for PBS) audiences-and a tremendous amount of criticism for airing strong sexual themes and language. When More Tales of the City was produced, PBS wasn’t willing to touch it and ran it on cable. Some astute observers wonder if PBS’s concerns about losing present audience members weren’t overshadowing the possibility of acquiring new viewers. While not all of the miniseries on these two flagship programs were British-some were American, including somecommissioned by PBS, and some were Australian, Canadian, or from other countries that made versions in English-they continued to make it possible for PBS to continue to supply good programs without the financial outlay that would be required to commission U.S. production of every one of their programs. Since most expenses were already covered by showings in the United Kingdom, these imports were priced at an affordable level, and the quality was high, even for sitcoms like As 7Yme Goes By, starring Academy Award winner Judi Dench-since the American buyers could pick and choose the best. Some
11.4 Public Broadcasting:HangingOn
631
programs on the Nova science-oriented series were produced by the BBC and some by WGBH in the United States. Typically, a British sitcom or drama had a beginning, middle, and end as a series and the writing was consistent, since only as many episodes would be produced as could be done well-which was rare in American television, with its insatiable appetite for content, and whose producers always hope that their program will be picked up for another year, and that it would amass enough episodes to profitably enter syndication. Although it often appeared that PBS was becoming indistinguishable from the commercial networks, there were two important structural differences. First, Congress acted as though the small sums appropriated to CPB gave Congressthe right to dictate content, Second, although much program funding came through CPB, individual stations were the actual producers. In 2001, Pat Mitchell, the new head of PBS, decided to eliminate funding for the Mystery series both because of lingering legislative dislike of all things foreign and because many felt that too much money was going to WGBH, Boston, the producer of many of PBS’ most popular series. Apparently, Mitchell hoped thatoriginal programming produced by other stations might attract larger and younger audiences. Because of the economic facts of life-it was always less costly to import programs from abroad than to try to produce them oneself, and the commercial networks might always be more nimble than PBS in finding ways to attract younger audiences-this was amajor gamble. Public television always had to expect that popular programs might be lured away by commercial television. Perhaps the first was achildren’s program, The Finder, which moved to CBS as Let’s Take a Trip in the 1950s. This happened many times, with traffic in the opposite direction quite rare. The commercial networks had the moneyto seduce most talent away from the low-paying public sector. When some audiencepotential was shownas, for example, with thesport of tennis-it was only a matter of time before it moved to commercial a network. Frequently, programs that originally appeared on PBS, such as theminiseries that constitutedMystery, were rerun on theA&E cable channel, not PBS. It was on the public affairs front that public television not only competed with, but often surpassed the commercial networks, with documenFrontline, AmericanExtary, history, and public affairs series run under the perience, and Nova titles.These programs featuredimportant and interesting topics, were well produced, and enjoyed appreciative audiences. Frontline was theonly regular documentary series on television after the middle-1980s. Pageantry and nature were sure-fire content for other programs seen on PBS, together with concerts ranging from the late John Denver to the Boston Pops and-especially during fund-raising periodstenors, both Italian and Irish. Two half-hour programs on Friday nights showed how a simplepublic affairs format, produced intelligently every week, could both build an
632
Chapter 11 A NewMarketplace
(1988-2001)
audience and achieve recognition across the country, particularly in Washington and onWall Street. The first was Washington Week in Review, which consisted of three or four “talking heads”-usually newspaper reporters-discussing the most important news developments of the week from a Washington perspective. Unlike the commercial news interview programs, such as the long-running Meet the Press, this program was not designed to provide a pulpit for a person in the news. Rather, a diverse group of experienced reporters gave their best assessment of a particular event or development and answered the questions of their peers. The program’s goal was to inform-unlike The McLaughlin Group, which also appeared on PBS but, because of the combative nature of its host, tended to provide more heat than light. Wall Street Week, however, became America’s most-watched financial information program, in an era when interest in the stock market grew to its highest point since the 1929 crash-even after the “dotxom” stock market meltdown in 2000. The format was simple: host Louis Rukeyser, a journalist who grew up in a family of knowledgeable Wall Streeters, opened with a monologue-replete with plays on words-about the events of the week, and then he and a panel that changed every week answered viewer questions and devoted most of the program to interviewing a financial expert in some field. The program, which originated in 1972, explained complex matters in understandable language, and brought back guests after six months or a year to be graded on the quality of their forecasts. It was produced live at MarylandPublic Television, which often had to cross its collective fingers when weather and travel conditions between Wall Street and Owings Mills, Maryland, became tricky. It was“must” viewing by brokers, since they were bound to hear from their clients the next day about what Wall Street Week said thisweek. Although few public stations couldafford to produce their own regular news programs-and woe betide them if the audience grew to expect a program that couldn’t be justified on economic terms, thus stranding its audience-almost all PBS stations carried the well-respected network NewsHour program. Originally co-anchored by Robert MacNeil,a Canadian who hada successful news career on American network television, and Jim Lehrer, an experienced Texan newscaster, the program soon was known as The MacNeil/Lehrer Report. When MacNeil retired to devote more time to writing books, it adopted its present name, The NewsHour with Jim Leher. In terms of ratings, it couldn’t holda candle to the declining early evening news programs of the commercial networks-but its audience consisted of the movers and shakers in the nation’s political and financial worlds, as well asother broadcast journalists. While these public affairs programs are generally thought of as belonging to PBS, they actually are produced by one of PBS’s member stations, such as WGBH (Boston), WNET (New York), and WTTW (Chicago), and other stations in Washington, Los Angeles, Seattle, Pittsburgh, St. Louis,
11.5 More Advertising
ussell’s monthly satirical political one-man ision and others. Some programs are prote companies affiliated with their stars, bess has mandated that no executives or performers paid in funding may make more than a member of Congress~a that seems large to members of the public’ but tiny to those lookin salaries paid commercial show business or sports figures. no limit to the amount that may be paid to a production company, co alent what it wishes, stations broadcast in-school educatio~alp ming during the day, almost every public television station se with low key, nonthreatening programming-including cartoons ’ e s ~ r n e~ t r e e twhich , was also was se produced in many foreign countries. ted children’s ~rograms’such as The success of home refurbish in^ programs such as stimulated a commercial ve (with the origin successful network sitcom e ~rn~ro~erne~t. use, had similar success with a 1
Audience m e m ~ who ~ r thought ~ that the 1990s brought more advertisi both in terms of number of ~ e s s a g e and s total amount of ti commercials-were correct on both counts.
hile there were few major changes in broadcast a d ~ e r t i s i nafter ~ e minor changes made things look and sound different. The abil “morph” and otherwise manipulate pictures (see pp. 601-6 ative ideas full rein, and the home television screen became ing frogs, clim~ingpenguins, sports utility vehicles in impossible places, and all sorts of other real and fanciful creatures and situations. Against this background of fantasy, some advertisers and entertainment ers strove for realism-which led to a number of newspeopl~suco the easy money and appearing in commercials, fictio~alprograms, or feature films. Most networks quickly adopted rules against practice, with ABC being the most rigid and CBS being willing to o ally allow a real news person to appear on a fictional program like ~ r o ~ ~ .
634
Chapter 11 A New Marketplace (1988-2001)
Some advertising humor amusedaudiences-but it hadto do so without annoying too many viewers or cause people to forget just what it was that was being advertised. Some older pitches, still rememberedby generations of viewers, were the lonely Maytag repair man, created by Stan Freberg and originally starring Jesse White (who wasreplaced only after many years in the role); Madge the Manicurist, who sold Palmolive dishwashing liquid from 1965 to 1992; Fred, the Dunkin’ Donuts baker from 1981 until the end of the 1990s; and Mr. Whipple, who admonishedviewers to “not squeeze the Charmin” tissuefor more than aquarter of a centuryafter 1964. Broadcast advertising continued to rely on 20- and 30-second commercials, with some shorter and very fewrunning a minute in length. After the demise of the NAB code in the mid-l980s, however, each hour had more time devoted to commercials and promotions (which both were useful to the program department and reserved the time slot for commercial sponsors should they become available) since neither the industry nor government felt like imposing restrictions as they hadin the past. While most stations aired as many commercials as they could, those competing with others in their market might voluntarily restrain themselves to enhance theirreputation. One specialcase is the SuperBowl football game, with its huge audiences and resulting near-unbelievable price for each commercialwhich acted as a showcase for the industry to show off their most creative ads. The tendency of business to form conglomerates has led to occasional interactionsbetween commercials of unrelatedbranches of the same company. Since spots are vastly more common than program sponsorship, and more of them can be inserted in each hour, both because of reduced length and more minutes per hour devoted to advertising, it often is hard to find the programming among the commercials. Clutter annoys both advertisers and audiences. Some even think back nostalgically to when a “commercial break” was one ad, for one product, set off at each end by a couple of seconds of black. The pressure for advertising on television has squeezed out another old standby-product protection. For the first several decades of broadcasting, stations and networks would commit to not airing a spot for a competing product for a set period of time-often 15 minutes. Today, cheek-by-jowl competing ads-particularly for automobiles-air all the time. These and other practices continued to increase advertising on television (see Appendix C, table 3-C).
-
11.5.2 Forbidden Advertising
The advertising of hard liquor had always been a “no-no” in American broadcasting, even after the end of Prohibition in 1933. Distillers and distributors feared the imposition of other restrictions on advertising of their products by the federal government, and broadcasters didn’t wish to risk losing the ability to carry beer and wine advertising, which accounted for
11.6 Commercial Programming
635
roughly 10% of industry advertising revenue. Numerous broadcasters, particularly in the so-called Bible belt middle of the nation, knew that much of their audience was opposed to liquor. Occasionally someone attempted to advertise hard liquor on radio or television, but either the station or the advertiser was always convinced by theirpeers that such advertising was unwise. However, in 1997 some distillers, in a n atmosphere of deregulation (see pp, 562-569 and 670-672), decided that they were unlikely to have further restrictions put on their print and broadcast advertising if they aired commercials late in the evening. Actually, they reasoned, this would be a win-win: either they were allowed to advertise hard liquor or, should the Congress decided to prevent all broadcast alcohol-including beer and wine-advertising, then the hardliquor companies would stillbe better off than before, since the rival beverages would not have an unfair advantage in terms of media access. The broadcast media would be the only ones to suffer. Yet, by 2001, very few hard liquor ads had actually aired, whichmay have helped the National Association of Broadcasters repel periodic assaults onbroadcast wine and beer ads. This was but one skirmish in the question of First Amendment rights of commercial speech. Another that seemed to reappear with almost clocklike regularity was concern over the advertising of medicine and drugs. Critics argued that such advertising at least indirectly promoted use of all drugs, even illegal ones. One could count on expressions of congressional concern, particularly near election time. Industry groups would call for further research, and then there would be a slow fade-out, with no action taken. Other worrisome content included condom advertising (on someradio stations as early as the 1970s), which, however, didn’t raise as many hackles as thepartial nudity, sexual innuendo, andstrong language used by advertisers whose products or services encouraged such content-for example, 900-number telephone sex services.
11.6 Commercial Programming To many in the business,“programming” really means program scheduling. The limited numberof high-quality programs available-from original dramas to home movies, and from sports to public affairs-was hard to expand, and thus the highest priced programming executives measured their successes and failures strictly on the basis of how many people were viewing and listening (ratings) or what proportion of those listening or viewing were watching their particular offering (share). Most new broadcast content in the 1990s actually was traditional (sports and special events), from other media (suchas feature films or books), recycled previously broadcast material, exciting and low cost true-life car chases and “reality” programs like COPS and Survivor, and newsmagazine shows. The reasons for this lack of originality are many: schedulers can get swamped, original material can be
636
Chapter 11 A New Marketplace (1988-2001)
unpopular, itcosts a great deal, and the risk is great-one can never be sure if a new genre or program will be popular. As always, a great deal of programming was recycled. Not only has broadcasting been around long enough to develop generations or cycles of genre programming such as police, medical emergency and the like,but the tapes and films (and even, in a couple of instances, thekinescopes) of some older series were taken out, dusted off, and aired. Programs that had been aired in the U.K. often were refurbished for American audiences, or vice versa. A program that hadappeared on one network one year might appear on another-or on a cable channel-the next, particularly nature shows. The ideasfor previously successful programs were reused-for example, it would be hard to count the numerous series featuring the characters of Sherlock Holmes or Robin Hood. 11.6.1 Pushing the Envelope
A new generation of producers and writers often tended to go beyond the tacit boundaries of good taste, usuallywith the approval of network executives and advertisers who usually cared only about the size of the viewing audience, but sometimes merely to impress their peers. Partial nudity appeared on prime time, accompanied by thousands of words produced by newspaper columnists and even news anchors. This wasn’t uncommon overseas-one British observer pointed out to an American group that “weenjoy rather more sex and rather less violence”but until the first episode of the well-written NYPD Blue, which showed a major character’s entire nude backside, it was rare in U.S. commercial network programming. Sometimes, it is hard to provide justification or motivation for such material-which is one of the factors that ledto the development of television content ratings systems (see pp. 670-672). For example, one 1997-1998 program, Oz, placed in a men’s prison (where male nudity, including branding on one character’s buttocks in the first episode, might be expected), managed to include some female nudity. A character asked his girlfriend to parade outside his prison window in the buff. Far fetched? Exploitive? Perhaps . . . but the program’s writedproducer, Tom Fontana (who also wasresponsible for outstanding programs such as St. Elsewhere and Homicide: Life on the Street), claims that this actually happened in a prison, and that hedidn’t invent the story. The amount of violence portrayed on television stimulated the most criticism. Recognizing this, and thepossibility of governmental action, the cable industry sponsored a three-year academic research study into how much violence was evidentin entertainment programming. Three volumes of results appeared in the mid-lggos, largely confirming the critics. While the “worst” program or network might vary, the addiction of televisionand its audience-to crime and extreme adventure never diminished.
11.6 Commercial Programming
637
Language also pushed the envelope. Although the FCC’s guidelines for hours when childrenmight be in the audience (see p. 671) were uncertain, some words that hitherto might have been considered indecent started to turn up on drama programs, talk shows, and even cartoons such as South Park and The Simpsons. This change has permeated society, the mediaand thisvolume. 11.6.2 Radio Formats
With the exception of public broadcasting, radio stations remained “formatted” rather than “programmed,” as had been the case since the 1950s (see pp. 365-370). By the 199Os, differences in AM and FM radio, although based on their sound quality and propagation characteristics, were purely programmatic. Typical FM stations played varieties of rock music, while AM stations became noted for talk and news. In larger markets with more stations, nicheformats-all-news, sports, ethnic programs-could be made profitable. A minority of stations would concentrate on some musical specialty for all or part of the day, such as country, jazz, or soul, or even a few hours of Frank Sinatra or Broadway show tunes, and thenplug into a syndicated satellite program service when drive time was over. Station management did whatit could to reduce costs by sharing them with other stations their group operated in the samemarket (see p. 610), and by using satellite-deliveredsyndicatedprogramming services rather than more costly, and often uneven, local production. This could lead to the loss of some familiar local sounds-for example, three generations of the John Gambling family ended their 75-year (!) run over WOR, New York, in the Fall of 2000. Most content decision makers at the local level were copycats, who looked for what was being neglected in their communities and then ordered formats from syndicators who claimed to have a winning formula. Nevertheless, while still making money, radio rarely made wavesexcept to shock people, as with “shock jock” Howard Stern’s smut and innuendo-filled programs or the confrontational Don Imus, both based in New York. Stern’s antics cost the licensee of Infinity, which provided the syndicated program, millions of dollars in FCC fines. But neither man would have been on theair if he weren’t hugely popular. Radio still could serve the public interest. News headlines, traffic, and weather during morning and evening drive time (ever longer as traffic congestion increased in urban areas) remain useful and profitable. When a weather or other disaster occurred, radio often could be on the scene faster than television, and the habit of listening to radio for information about loved ones in the path of danger remained. Some stations relied on volunteers, articulate people-often with a clear-cut point of view-to run telephone-in or talk programs for little or no money. Political leadersincluding thePresident every Saturday-often hadregular radio programs.
638
Chapter 11 A NewMarketplace
(1988-2001)
Highly successful conservatively oriented national talk show hosts, such as Rush Limbaugh-who took credit (or blame) for determining the Republican outcome of the 1992 and 1994 elections, lost much of their clout later in the decade. (By 2000, some of their role was taken on by the less partisan-i.e., equally nasty to both candidates-late-night television talk show hosts like Jay Len0 and David Letterman.) While still popular, they nolonger could claim to be the voice of the peopletalking back to big government. It may be that too many had similar right-wing political/ economic views, or it may be that the public merely wanted something else-health news, for example, or stock market advice-but the talk show’s season in the sunappeared to be over. 11.6.3 Television Entertainment
It is, of course, too early to assess which television programs of the last decade of the 20th century will be remembered into the 21st. Indeed, the various end-of-the-century attempts of TV Guide and others to list the “top 100” showsof the 20th century rarely showed much agreement. But those that stood out from the pack-and, in any given year, the network prime time pack is about 60 programs deep-tended to fall into a limited number of genres. Some virtually disappeared-music, variety-and westerns, which had been seen virtually every night on every network in the 1950s
hit the radio $64 Question of the 1940s and even the television $64,000 Question of the late 1950s when host Who Wants toBe a Millionaire? Regis Philbin helped to propel to instant success in 1999,marking the return of big-money quiz formats to prime time television for the first time in more than 40 years.
I Mation
Photofest.
11.6 Commercial Programming
639
(see pp. 370-375), were virtually gone by the 1980s and haven’t yet returned. “Private eyes” are similarly scare. Others hung on by their fingertips. But program cycles of invention, imitation and decline still existed, even though they can take a long time to come full circle. Forty years after the scandals of the 1950s (see pp. 376-378),the quiz show format returned. Dating back to 1930s radio, the formerly powerful quiz show had been reduced to programs like Win BenStein’s Money until a limited series based on a British original, Who Wantsto Be Q Millionaire, won the summer1999 ratings jackpot for ABC-and was immediately added to the fall schedule for no fewer than three nights a week. There was an interesting difference, and not just the amount of money involved, between Twenty-one and the $64,000Question in the 1950s and Who Wantsto Be Q Millionaire at the end of the century. Questions in the 1950s were quite difficult, but for the more recent program they were very easy-and contestants were given “lifeline” calls and hints. Once again, the public was being seduced by voyeurism rather than an opportunity to test themselves against the contestants. The success of Who Wants to Be Q Millionaire led, predictably to Who Wantsto Marry Q Multimilli0naire“which also appeared to be on the road to success until the first couple separated right after the honeymoon. One new quiz show, with elements of Survivor, was the2001 British import Weakest Link-which nastily ejected one contestant after every round of questions. The networks continued theiraffair with tearjerker miniseries-usually with the name of a potboiling romance, adventure, or horror genre author above the title-but few serious dramas. There were many interviews with musical stars on the late evening shows, but almost no musical or variety programs. Disasterfilms were common, butthere were only a limited number of long-form dramas exploring the human condition on other than a superficial level-most of which, in the mid-lggos, for example, seemed to be adaptations of Jane Austin novels. In a nutshell, there were few programs to talk about the next morning. Science fiction programs trading on the popularity of Star 7kek (whose franchise continued running through SF The Next Generation, ST: Deep Space Nine,and ST: Voyager),and the movie trilogy Star Wars,were common in the 1990s.There were even science fiction aspects to sitcoms such as Red Dwa~forThird Rock from the Sun,starring John Lithgow in the implausible story of alien voyagers with inappropriate humanbodies in a college town, which followed in the extra-terrestrial footsteps of My Favorite Martian (1963-1966)and ALF (1986-1990).Obviously, the alienshad been watching U.S. television before they landed. Police and medical drama wasvery common throughout the late 1980s and 1990s. Some were of very high quality, with excellent writing, direction, acting, and camerawork. Others were merely entertaining, and some were very forgettable. NYPD Blue, produced starting in 1993 by Steven Bochco, was a darker version of his ground breaking Hill Street Blues, which had
640
Chapter 11 A NewMarketplace
(1988-2001)
aired between 1981 and 1987.Without the humor of its predecessor, it nevertheless deeply explored many aspects of the life of members of a New York police precinct-although it sometimes descended into soap opera. Not really a police drama, since it focused on a family of organized crime members, the Sopranos gained critical acclaim and a large audience on HBO for its acting and writing. While some of those who didn’t subscribe to HBO may have wondered what all the fuss was about, others started to think seriously about subscribing.
MC’s NYPD Blue broke new ground in its useof language [and some nudity) in late prime time as it portrayed the lives R
and loves of a New York City police precinct. Dennis Franz (right) played a skeptical and hard-boiled detective who became the series’ chief draw. While owing much to Hill Street Blues, NYPD Blue didn’t have its humor or lack of cast turnover. . .
F
Photofest.
11.6 Commercial Programming
641
Homicide: Life on the Street got even more deeply into the lives and cases of an ensemble cast representing members of the Baltimore Police Department homicide squad. Only one actor in the original cast was known to most television viewers-and he was not the star. Indeed, he left after a couple of years (his character had “misbehaved” at a police convention), as did numerous others. But the program went on without a hitch. Apolice department featuring a command structure with an outstanding level of vicious incompetence at the top and anawesome but compassionate black Italian lieutenant at the bottom, and suchcontinuing story lines asrecovery of one detective from a stroke and difficulties several detectives had trying to procure additional incomefrom a bar they purchased across from the station, were interspersed with realistic police work. The program ended its lengthy network run in 1999 because of low (but loyal) ratings. It already had taken up residence on cable channels, such as Court TV. In 2000, a successful made-for-TV-movie brought everyone (including two ghostly characters who had “died” earlier) back to investigate the shooting of the lieutenant and wrap up loose ends. Law 6 Order also changed its cast frequently in the years after its start in 1990, but didn’t seem to have much difficulty keeping its audience. Fictionalizing contemporary real felony cases, the first half-hour usually featured police tracking down and arresting a suspect and the second halfhour featured members of the New York district attorney’s staff attempting to secure a conviction. They didn’t always win, but the program was successful enough that a spinoff (featuring a refugee from the cancelled Homicide) joined it in 1999, and a third joined the “franchise” in 2001. Most other police dramas were derivative, and many were violent andlike their predecessors-often ignored the law, while allowing the actors playing the “bad guy” an opportunity to emote. Programs like Martial Law (featuring a real overweight Asian judo expert), Walker, Texas Ranger (starring another martial arts expert), and Nash Bridges kept the genre going. A far cry from the superficial Perry Mason courtroom/detective drama (which ran for more than 16 years starting in 1957), L.A. Law started in 1986 and continued into the 1990s. The story of members of a Los Angeles law firm, its internal politics, and some of its cases, the series had a generous amount of black humor, including the deathof the managing partner in the opening episode (one partner immediately demanded the deceased’s office) and the deathof another partner when the elevator door opened to an empty elevator shaft. This formula could be repeated endlessly, with different approaches-it could be stark (Law 6 Order or Murder One),humorous (AllyMcBeal or the older Night Court), or both (The Practice). An unusually well-crafted program, West Wing, first aired in 1999. It was a very fast-paced portrayal of a dedicated group of White House staff members, with Martin Sheen playing liberal President Bartlett with considerable gusto. This hour-long drama, with lighter moments, was
642
Chapter 11 A New Marketplace (1988-2001)
. West Wing depicted President Josiah (Jed) Bartlett (Martin Sheen, center)and his senior staff includingC.J. Craig, the quick-witted press secretary(Allison Janey,left), in an NBC series offering good writing and often pointed comment on current news developments or social concerns.
R
I
Photofest.
I
unafraid to reflect real-life major problems of government, foreign affairs, and society. Notall of the solutions “worked,” but almost none of the characters were one-dimensional and viewers inadvertently learned a lot about government. (A number of former White House staffers served as consultants.) During the 2000 election campaign, quite a few automobiles in California sported “Ted Bartlett for President’’ bumper stickers.
11.6 Commercial Programming
643
Other adventure programs focused on the dangers of real life, even though the odds against some of the more improbable mishaps were high. Among the latter were Emergency! and Rescue 911 with William Shatner introducing a mix of live action and recreated real-life stories of police, fire, emergency medical, and rescue personnel at work. Some viewers watched the showto see if any of the victims would not be saved. It happened very rarely! (There also was, among other examples of this genre, a syndicated Rescue 8 in the 1950% Code 3 in theearly 199Os,and Rescue 77 later in that decade.) Even less expensive to produce-since there never was any need to recreate parts of an episode with paid actors-were programs like COPS. Here, a camera operator rode along with police officers and captured picchases were particularly tures and sound of cases-high-speedtraffic popular-for limited editing and Fox network airing. Sometimes only a brief voice-over at the end wouldsave the program frombeing only a chase without a resolution. Cheaper programs aired on-the-spot snippets of the “worst traffic accidents’’ variety. It remains to be seen whether a 1999 Supreme Court decision restricting television “ride alongs” with police will crimp theability to tape such material. It was only a matter of time before these “reality” programs moved to another plane, since they were both cheap to produce and popular. Survivor originated in Europe, but achieved an unheard-of level of popularity
Survivor first aired on CBS in the Summer of 2000 (based o n an earlier British program), the “reality” program attracted a huge and growing audience eager to see which person survived the longest by not getting “voted off” the island by fellow castaways. A few months later, a second series set in the Australian outback, did nearly as well and a third was planned for an African location while other producers and networks joined the bandwagon with variations. a When
644
Chapter 11 A NewMarketplace
(1988-2001)
m MC’s ER (Emergency Room) continued television’s fascina-
tion with medical mayhem, with (R to L) George Clooney, Eriq La Salle, Sherry Stringtield, and Anthony Edwards depicting the emergency room medical team of a downtown Chicago hospital. The program’s popularity became so important to NBC that it agreed to record per-episode payments to the stars, driving weekly costs for the series well above $10 million.
Photo 0 1995Warner/MPTV.NET. L
in the United States in the Summerof 2000. The idea was simple: “maroon” a diverse (and, theproducers hoped, attractive to viewers) group of people in an isolated spot (a south Pacific island for the first series) for 39 days, constantly tape them, devise tests for them to meet, eliminate them oneby-one (mostly by vote of the surviving participants), and then award the “survivor” a million dollars-while building suspense with weekly edited
11.6 Commercial Programming
645
programs of their progress. The first series attracted as many as 40 million people to the final two-hour program (followed by a town-hall interview program with all 16 castaways), and an estimated 110 million watched at least one episode-causing Survivor to become the most viewed program in commercial television history. CBS rapidly made plans for additional series-the next in the Australian outback-and other networks looked for their own version of the program with mixed success. Big Brother did reasonably well in Europe, but not in the United States. PBS aired 1900 House, a series that showed a British family trying to live in a restored London house as their grandparents had lived at the turnof the lastcentury-a challenge that created considerable viewer interest. Those who thought more deeply about the difference between these programs noted that 1900 House put a premium on cooperation, and Survivor put a premium on backstabbing and greed. Medical programs, successors to BenCasey, Dr. Kildare, and St. Elsewhere, tended to be moresoap opera than thetop-rung police dramas of the 1990s.Particularly popular were ER (Emergency Room),a very highly rated series in 1995-1996 and for a numberof years thereafter. In 1998,ER also became the mostexpensive prime time hour-long production-at $13 million per episode, as much as ten times the norm-as its actors demanded and received huge salaries knowing full well that NBC badly needed this program’s continued ratings. ER had a remarkable ensemble cast, including George Clooney,whose movie acting career took off as a result. One of the most heartwarming episodes featured 1950s pop singer Rosemary Clooney,his aunt in real life. Chicago Hope at firststarred Mandy Patinkin, whose acting career was often eclipsed by his singing career. Like Clooney, he eventually left the show for other career opportunities, but it continued to limpon without him. In 1999, Third Watch,which combined elements of the police, rescue, and medical genres, went onthe air-bringing the concept of derivation to new heights, although it often was well done. Making no pretense at presenting high culture were syndicated programs such as Baywatch (much like a police seriedsoap opera in well-filled Xena: WarriorPrincess, and bathing suits-very popular around the world), Hercules: the Legendary Journeys.The latter two madeno pretense at being other than entertaining fiction. Attractive “hunks” of both sexes in limited clothing, grade school plots, and lots of swordplay (and a little wizardry) made an entertaining and mindless thud-and-blunder product. Their success led producers to other mythological or remote historical settings (the short-lived Roar was set in fifth-century Celtic Europe). As discussed on p. 630, several British series and miniseries such as Cracker and Prime Suspect became popular among those who admired fine dramatic writing and acting. An instant cult grew up around Absolutely Fabulous, a half-hour sitcom featuring a dysfunctional female household that was deeply into the trendyfashion/art/theatre scene in London.
646
Chapter 11 A New Marketplace(1988-2001)
One of the biggest success stories in the 1990s was NBC’s Seinfeld, which was a top-rated program for several seasons,
D
built around NewYork comic Jerry Seinfeld and his coterie of sometimes offbeat friends.
I
0 Don Zaitz, 1993Kastle Rock, NBC/MPTV.NET.
In the United States, sitcoms were among the bright spots in programming, although the recorded laugh tracks and formulaic writing proved tiresome to some viewers. Appealing particularly to younger audiences were Seinfeld, the top-rated program for two seasons-with the final episode, in 1998, earningnews coverage across the nation.Although Seinfeld had an establishedcomic (Jerry Seinfeld) as star, the high level of writing, direction, and ensemble acting was sufficiently credited for the show’s success that other members of the cast-after eight years of tryingwere able to pressure NBC into giving them very large pay raises. However, when the showleft the air, few cast members landed on theirfeet. Programs like Seinfeld were much of the reason why NBC consistently pulled ahead of the other major networks in the ratings in the 1990s. (ABC was second, and former “Tiffany network” CBS a distant third-even losing placeto Fox occasionally.) Indeed, the Thursday night lineup on NBC (Friends, Seinfeld, and ER) has been credited for NBC’s first-place position. Frasier, a spinoff of the hugely popular 1980s’ Cheers, appealed to a wider audience, with itstales of a psychiatrist,his querulous father, prissy brother, Cockney housemaid, and very insightful dog. The sitcom genre itself evolved, and frequently featured more complex and multifaceted episodes. For example, Murphy Brown starred Candice Bergen as a broadcast journalist of a considerably more complex nature than Mary Tyler Moore’s “Mary Richards” of twodecades before. At onepoint,in a
11.6 Commercial Programming
647
somewhat confusing 1992 election campaign, Vice President Dan Quayle attacked Murphy-a fictional character!-for having a child out of wedlock, in itself a theme (like “Murphy’s” bout with breast cancer) hitherto classified as “drama” not “comedy,” Roseanne, one of the few sitcoms featuring a blue-collar family, albeit a loudand demonstrative one, reached # l in the ratings chart, and was on ABC for several years starting in 1988. Television’s top-rated program episode of the 20th century was the February 1983 final two-hour installment of M*A*S*H, the Korean War medical comedy, which earned CBS an audience share of 60.3 at a time when few programs had a share above 20. How unusual this was is evidenced by the fact that the #l network in 1999 probably enjoyed an audience smaller than the third place network a decade earlier, because of the splintering of the audience among networks, cable, rental videos, and other means of distribution. Other sitcoms often had bizarre premises, such as Third Rock from the Sun, mentioned earlier. Even more original (apart from Third Rock’s basic gimmick) was Northern Exposure-a traditional sitcom that first aired in 1990, with memorable characters placed in a town of Cicely, Alaska,a setting that occasionally allowed otherworldly or, at best, highly coincidental, themes. Even “conventional” sitcoms might have an unexpected twist: the last episode of Newhart in 1990 ended withBob Newhart waking up in bed with his “wife” from The Bob Newhart Show, which was last telecast in 1978-thus turning the entire eight year run of the second show into dream! a The serial drama,of course, often meandered into other genres, such as police/adventure or comedy. But there were usually some programs thirtysomething [whichexploredtheworld of worthnotinglike Yuppies-Young Urban Professionals, a sociological term)that aired between 1987 and 1991, giving rise to a number of programs that tried to achieve the same audience pull, with both older andyounger groups of characters. Serials such as Melrose Place, Beverly Hills 90210, Felicity, and DQWSO~’S Creek were aimed at younger viewers, while more traditional programs like Murder, She Wrote and Diagnosis Murder were deliberately aimed at older ones. Children, however, were given short shrift by commercial television. Although the profitable Saturday morning cartoons continued, it wasn’t until Congress twisted the broadcast networks’ arms with theChildren’s Television Act of 1990 (see p. 670) and other statutes that additionaltelevision programs for children were produced, although not as many as had been common in the1950s and 1960s. Despite decades of experience-and a growing number of roles for African-American and other ethnic minorities-the networks could be amazingly short-sighted, and even blind. The 1999-2000 season began with 26 new prime time series-but only one of them (Cityof Angels on CBS) featured a black in a leading role. The NAACP and other groups protested, and several producers furiously wrote in more parts for members
648
Chapter 11 A NewMarketplace
(1988-2001)
of minority groups. For example, West Wingadded a special personal assistant to the president who wasa young black man-who later started going out with the president’s daughter, an arrangement that thenetworks, always wary of offending members of the audience, never would have even thought of showing even a decade earlier. A number of serial dramas, some with comedic overtones, crossed over the lineto a darker look at theworld andthe supernatural: W n Peaks, laid in a rural area, was quite weird;and X-Files, about FBI agents who operate within a paranoid world of UFOs, aliens, and otherstrange concepts. Buffy the Vampire Slayer was aimed directly at young audiences, as was its spinoff, Angel. The line between reality and fiction grew ever thinner, as programs such asthese-and some so-called documentaries-accepted the supernatural and bizarre as theirpremise. A number of programs presented religious themes, such as Touched by an Angel on CBS (which explicitly used God as the cornerstone of the program), Nothing Sacred on ABC (which won a Peabody award), and Seventh Heaven (an Aaron Spelling program about a minister’s family, and at one time the most popular show on the WI3 network]. Touched by an Angel was the second most highly rated drama on television during the 1999-2000 season. Using cartoon characters-with voices supplied by well-known actors to a great extent-were The Simpsons, Beavis and Butthead, and South
(I The Simpsons cartoon family became a popular staple of the Fox Network in the 1990s.While teenage Bart Simpson took center stage at first with his defiance of authority, over the years the program has developed some 50 characters, some of them minor, each with clearly identifiable traits (and often the voices of well-known stars), and all contributing to the series’ social commentary. It is the longest running network prime timecartoon series.
i
I
Photofest.
11.6 Commercial Programming
649
Park. These were a far cry from Disneycartoons or family fare like The Jetsons or The Flintstones. The Simpsonswere in classic sitcom form, with a family getting into difficulties-often reflecting some of the angst and discouragement of their real-life counterparts in the audience-and often crossing the line into humorous bad taste. Beavis and Butthead were two teenagers who were almost always in bad taste, and South Park truly pushed theenvelope! Inexpensive, but popular, were programs that typically used home produced by Vin movies or tapes, such as America’s Funniest Home Videos, DiBona. Once such a program achieved success, imitators followed to the point where manyof the videos seemed overly convoluted and almost certainly madewith thetelevision program in mind. Daytime programming continued to be a mix of soap operas and audience talk shows, Both Mike Douglas and Merv Griffin had left the air, and Oprah Winfrey’s Oprah! dominated the scene. When she started touting books on the air, their sales shot up. Other hosts such as Monte1 Williams and Maury Povich reached fewer viewers. When this genre multiplied, the producers and hosts had to search ever harder for people to interview and themes to explore. Jerry Springer, a former politician, unleashed hisbiases and went for the jugular. Jennie Jones’ program had an episode in which a man admitted to his sexual attraction to another man-who shot and killed him a few days later. While that episode was never released, Jones may have spent more time in lawyer’s offices and courtrooms than the studio. This caper resulted in a $ 2 5 million judgment against the production’s owners. Soap operas tried new character and plot gimmicks to the extent that it was hardto think of ways that would surprise the audience. Language also became far more free. For morethan a decade, probably the only thing that actually would shock (and gratify) the loyal audiences to these showsmany of whom were college students-would be if always-nominated, never a winner Susan Lucci would win a Daytime Emmy Award from the Television Academy (she finally did, in 1999). The Emmy Awards themselves were among the few major nonsports events produced for airing on a network. Once a “family” gathering, where people in the industry congratulated each other, since the 1970s they had been produced for the nation-and public recognition of the importance of the art being honored. The Emmys (television), theTonys (Broadwaystage), the Oscars (motion pictures), and the Grammys (recordings) each received its own night-and, on thenetwork carrying the program that year, a great deal of additional publicity. The Oscars, in particular, had enormous television audiences, frequently were entertaining (comedian Billy Crystalwas particularly good as host), always ran long, and were rehashed ontalk programs all thenext week. Few television writers, producers, or directors stood out from their peers in the 1990s. Steven Bochco, David Lynch, Tom Fontana, and, later,
Chapter 11 A NewMarketplace
650
(1988-2001)
~
~
Jay Leno, host of the Tonight Show, greets guest Billy Crystal. Len0 took over the late-night NBC program when long-time host Johnny Carson retired in 1992 after three decades in thejob.
U
Photofest.
David E. Kelley, did so in theUnited States. Some used their success with popular shows to convince the networks to air programs that they found more satisfying. An example of this was the warm, well-written, and wellacted low-key comedy-drama Brooklyn Bridge, featuring a Jewish family in post-World War I1 Brooklyn-a series that probably never would have been produced if its creator/producer Gary David Goldberghad notalso created the profitable and long-running Family 7Yes. The extreme example was Dennis Potter, whose British television miniseries Pennies from Heaven and The Singing Detective were among the most imaginative programs ever broadcast. Knowing that he was about to die (in 19961, he wrote (and two different British networks produced) Karaoke and Cold Lazarus. Where the chief character (played by Albert Finney) endedand thereal Dennis Potter began is something that viewers of these many-layered plays might never untangle-but would never forget. 11.6.4 The Sports Money Machine
From the earliest days of broadcasting there was a seemingly insatiable audience appetite for sport. While reports of up-to-date scores might be considered news, and would be presented in news programs, most coverage of sports is really only another form of entertainment. The only fly in the ointment during this period was the astonishing rise in fees paid by networks to carry professional football and other sports-and some evidence
11.6 Commercial Programming
651
of declining audiences. Where CBS had paid “only”$28 million to telecast the National Football League’s games in 1964-1965, three decades later, Fox paid $1.5 billion for a three-year contract. A later seven-year deal (1998-2005)for the same league cost Fox $4.4 billion-but obviously Fox felt that the expenditure was worthwhile. These prices were partly in recognition of the fact that the broadcast audience.for sport continued to be far larger than the number of people willing to buy tickets and attend the games in person. It is arguable that professional football exists today because of television, and many millions of fans gain almost all of their knowledge of their favorite sports from the tube. The Olympics provide exposure to “new” sports for the casual viewer to enjoy. Many stations carry play-by-play of the home teams, international contests in sports such as golf and soccer bring out the sometime fan, and coverage of marathons elicits “there butfor the grace of God, go I” sighs. Few newscasts would be complete without time devoted to scores and personalities, and radio programs like Only Q Game appeal to those who claim to detest sports. Today, although there is an occasional all-sports radio station (WFAN, New York, is thelatest incarnation of pioneer W A F ) , ESPN and its imitators and clones on cable (ESPN 2 and ESPN News have joined ESPN Classic) are among the most profitable cable channels. Two decades after its 1979 founding, ESPN was the fifth largest network (broadcast or cable), as measured by gross revenues. Many sports remained closely bound to national cultures. U.S. baseball was growing in popularity in Japan and inLatin America, even though the so-called World Series only had American teams participating. Cricket remained a game engendering fierce loyalties in Great Britain and in many former colonies-whose teams sometimes beat the mother country. Professional and college basketball remained largely an American fascination, while hockey appealed to audiences in Canada and in itsneighbor to the south. However, “football” means something different in the world outside the United States. It is whatAmericans call soccer, and is the most watched and most played sport in the world. Even when thesoccer World Cup finals were held in the United States, and in 1999 when the U.S. women’s team beat women from the People’s Republic of China in a hard-fought game in double overtime, soccer has never achieved the popularity in the United States that it hadin the rest of the world. All of these sports, and the various international competitions in them, such as the World Cup, are carried around theworld on television. The OlympicGames remain particularly newsworthy, even though they now are on a two-year schedule, with alternating summer and winter games. Olympic Games coverageis largely restricted to the network that has paid the most to the games’ organizers. As with professional sports, fees paid to cover the Olympics have burgeoned during the 1980s and 199Os, now constituting the largest portion of host city and Olympic Committee
652
Chapter 11 A New Marketplace (1988-2001)
income. In 1994, the winter games helped CBS earn a 48 share of the audience-the only Olympics broadcasts to reach the fabled top ten. But Internet reports of Olympic events in 2000 in far-off Sidney, Australia cut seriously into theU.S.audience for the tape-delayed broadcasts. As with some news programs, there no longer is a firm line between some sports and scripted entertainment. Professional wrestling, for example, is one of the mosthighly rated shows on basic cable-and has been telecast profitably for decades. Professional wrestlers are now important enough to be tappedto throw out the first pitch at baseball games, and even enter politics, such as Minnesota Governor Jesse Ventura. Highly scripted, much of the appealof wrestling matches is spectacle and mayhem. There were, however, disquieting indicators that the public could have too much sports programming. The professional football Super Bowl, which in the 1980s were four of the top ten rated programs of all time, didn’t reach that level once in the 1990s.MC’s long-running Monday Night Football ratings also slipped, and major league baseball no longer was the topic of as much morning-after water cooler conversation. And the high cost of the most popular sports events was leading networks to seek-or, in some instances, create-new events that would have lower cost and for which high audience interest could be created.
11.6.5 News and PublicMairs Entertainment values increased substantially in most newsprograms in the 199Os,even while cost-cutting accelerated.
-
11.6.5.1 Network News Implodes
There were few changes in network newscasting that were immediately obvious to the viewer. The major network anchors-Dan Rather at CBS, Peter Jennings at ABC, Tom Brokaw atNBC-continued intheir posts, while they and their audiences aged. Second-tier anchors were mostly to be found on the newsmagazines (see pp. 657-659), although Ted Koppel’s Nightline occupied a special and influential position, usually at 11:30 P.M. The line between news andentertainment often was blurredin many ways. For example, CNN reporters were encouraged by Time Warner (which ownedCNN) to appear in the 1997 motion picture Contact (a movie thatalso drew the ire of the White House for its inclusion of misleadingly edited actual video footage of President Clinton). Viewers soon learned that ABC’s entertainment reportage often focused on Disney films and Broadway shows, and Fox’s on 20th Century-Fox’s movies (and TV Guide on Fox television]examples of the synergy and bias expected from media conglomerates (see pp. 617-618). Fox news also was noticeably more politically conservative.
11.6 Commercial Programming
653
What the audience couldn’t immediately see was the lower quality of network news because of the financial effects of the drop in viewership of the flagship evening newscasts from a combined share of nearly three fourths of the viewing audience in the early 1970s to less than half the viewing audience by the middleof the 1990s. In 1971, the combined rating for the three national network evening newscasts was 37.2, a number that dropped to 23.9 in 1995. Shares of the total television news audience dropped during thesame period from 73% to 48%-and continued down. It can be argued that the problem was circular: the drop inviewership was due to a drop in journalistic quality, which in turn was caused by costcutting. The drop in journalistic quality probably is an amalgam of the morale problems caused by network downsizing, the tendency to air vicarious entertainment instead of the kind of news that it takes a professional (rather than an Internetinformation provider) to supply, and networktreatment of the news as a profit center (which started when Don Hewitt’s 60 Minutes started to make money and give network executives the idea that all newsbroadcasting should make a profit). What may have been lost is the useof journalism as a meansof meeting their public interest responsibilities.Thedownsizing also causedthosenetworkcorrespondents still on the payroll to be spread thinly, with fewer and fewer stationed abroad. To cover foreign events, the networks relied on foreign counterparts, freelancers, and-for stories that could justify the expenditure to the accountants-flying in correspondents andsatellite transmitters. (In the industry, it was called “parachuting,”and was more economical than having resident correspondents.) Even those economies were not enough, and just at the end of 1999 three networks-ABC, CBS, and Fox, which wanted to get into thegameagreed to pool video coverage into a Network News Service, a cost-cutting effort whose conceptual forerunner was the 1964 Network (now “News”) Election Service intended to reduce the cost of obtaining voting results. NBC originally decided to go it alone, with itsbroadcast network and CNBC and MS-NBC cable news services. There was a clear softening of news at both the local and national levels. Locally, few stations could resist the“if it bleeds, it leads” approach to selecting lead stories, and some deliberately sought out stories of crime and disaster. Although such an emphasis led to the strange situation where most U.S. citizens believed that the streets of their communities were more dangerousthan police or FBI statistics showed, such coverage also led to high audience ratings. One group owner, Sunbeam, became known for how its Miami station concentrated on c r i m e w h i c h was bad enough in reality, but not as bad as Sunbeam’s television news would have one believe. Although city tourist authorities complained, their protests had little effect on what was covered. When Sunbeam bought a station in Boston, a toned-down versionof the same news judgment was employed. The worst effect of this was that competing stations modified
654
Chapter 11 A New Marketplace (1988-2001)
their own news coverage in order to avoid being scooped on crime, accident, and similar stories. Another change in the news was emphasis on “evergreen” features involving attractive children or animals, parades or fireworks, as well as local developments that the station had adopted aascontribution to “civic journalism.” Since a news program runs a scheduled lengthof time and since commercials, sports, andweather rarely would be cut, itmeant that newsof long-range political, social, and economic developments got short shrift. Nationally, the same change in emphasis was evident in most network flagship evening newscasts. They started providing more special features and consumer and health information than either breaking news or in-depth news of politics and other trends and ideas. To be fair, other media such as newspapers and news magazines also were moving from news to features and “infotainment.” While it got harder to justify expensive in-depth coverage of most stories-except, of course, stories like coverage of wars in whichU.S.military forces took a major part, sudden deaths of personalities like Princess Diana and John F. Kennedy Jr., the bombing of the Oklahoma City Federal n Longtime sports broadcaster and defendant O.J.Simpson (second from right) sits alongside his attorneys, from left, Johnnie Cochran Jr., Robert Blasier,and Peter Neufeld during closing arguments in what was probably the most widely watched murder trial (Los Angeles, September1995). Simpson was foundnot guilty, but later lost a civil trial dealing with the same murders. The verdicts in both trials exacerbated racial tensions in America.
AP/Wide World Photos.
11.6 Commercial Programming
655
Building and thesubsequent trial of the chief suspect in Denver, the bombing at the Atlanta Olympic Games in 1996 (whose extensive coverage was partly due to the number of reporters in town for the Games), the fate of Elian Gonzalez, and the O.J. Simpson murder case-once one network latched on toa story, others felt that they had to follow. Every network and station covered the 1990s 0.J. Simpson case fromthe slow-motion chase on Los Angeles freeways to the criminal trial and itsnot-guilty verdict and on to the civil trial and its contrary verdict. At least one station (KTLA, Los Angeles) covered every minute of the trial. Possibly the mediapanic over having to juggle coverage of the verdict in the Simpson civil trial, of voyeuristic titillation to the majority of the public, at the same hour as President Clinton was making his 1997 State of the Unionaddress to Congress and the entire nation,is a sign of the wayjournalism is going. A few other major international news stories broke through. Chief among them was the fall of communism in Eastern Europe-beginning in late 1989, and continuing through the end of the Soviet Union itself two years later. Viewers all over the world watched in amazement as the Berlin Wall came down, or as theflag of the U.S.S.R. flying over the Kremlin was years later, the world replaced by the flag of the Russian Republic. (WO again watched in awe and apprehension as a plot to take over the fledgling Russian government was turned back-with riveting pictures of tanks in the street, a burning legislative building, and reporters everywhere to tell us what we were seeing.) The very existence of radio and television, showing what life was like in the West, probably hastened theend of the communist regimes-and other modern technologies, such as fax machines, direct dialing, audio- and videotapes, and computers played their parts as well. Less well covered, to the dismay of those concerned, were stories of the famines in sub-Saharan Africa, conflicts in the Balkans and elsewhere, and similar important but untelegenic developments. The most dramatic coverage was of the first true “living room war,” fought in the Persian Gulf in 1990-1991, which showed how muchbetter broadcast journalism technology had become in the 15 years since the end of the Vietnam War. One of CNN’s anchors, Bernard Shaw, was in Baghdad during the brief conflict, which started when Iraq invaded and occupied U.S. ally Kuwait, and his pictures and descriptions of cannon, rockets, bombs, and missiles going off outside his hotel window-live-enthralled his audience. He was allowed to broadcast, using a suitcase-size satellite transmitter (although it permitted the U.S. military to see how successful their attacks had been) because Saddam Hussein, the ruler of Iraq, needed a direct link for his propaganda messages to the United States. Both sides approved Shaw’s presence, although some of the general public objected to an American newsmanbroadcasting messages fromthe enemy. When the American and allied forces took to the desert to push Iraq out of Kuwait early in 1991, a large pool of reporters and camera operators almost fell over one another trying to get the most dramatic pictures of
656
Chapter 11 A New Marketplace(1988-2001)
Operation “Desert Storm” or simply human-interest interviews with soldiers from their own city or state. Some of them showed Iraq’s Scud missiles fired at Saudi Arabia and Israel (which, although not a combatant, feared germ or gas attacks) being countered by Patriot antimissile missiles. It reminded many of the movie Star Wars. Upon their return,however, many reporters told of censorship difficultieswiththe military commanders-and manymonthslater,stories emerged about the poor performance of the American Patriot missile, to the unhappiness of the military and manufacturers who had been singing its praises. Another story that received inadequate coverage-almost none for several years-was about the medical problems suffered by some U.S. troops who hadserved in theGulf. Butthe topgenerals involved found that television had made them household names and faces. The field commander, Gen. Norman Schwarzkopf-whose father, head of the New Jersey State Police in the1930s, used to “narrate by proxy” the Gangbusters radio program-was treatedwiththe sameacclaimas General Douglas MacArthur during early phases of the Korean War. General Colin Powell, Chairman of the Joint Chiefs of Staff, could have ridden his fame to a Presidential nominationhad heonly said theword-and he didbecome Secretary of State a decade later. U.S. troops were involved in several other parts of the world during the 199Os, and itsoon became evident thatthe increasingly suspicious military was using access-limiting tactics to prevent the media from fully covering conflicts in which theUnited States was involved. Many senior commanders still resentedsome aspects of coverage of Vietnam, which theybelieved led to theU.S. pullout, and hadpracticed control procedures in short-lived hot spots like Granada and Panama. Others cringed at the sight of Marines crawling up a beach when entering violence-torn Somalia-with news camera operators and their bright lights crawling backward, in front of them, making the Marines easy targets had the Somalians wished to contest the landing. The grim fighting in Kosovo in 1999 was an opportunityto give the impression of open reportage, while restricting the mediain many ways. It wasn’t just on-the-spot coverage that was restricted: a CNNlZme magazine documentary that claimed to have uncovered military use of poison gas in Cambodia in the1970s was so heavily attacked by ex-military officers that the program was discredited, and Peter Amett, one of CNN’s most noted correspondents, was severely disciplined while producerApril Oliver and a colleague were fired. Other government agencies-notably the FBI during the siege of the Branch Davidian compound near Waco, Texas in 1993imposed their o w n restrictions. While the space program, after the Challenger disaster in 1986, now rarely got more than a minimal amountof coverage, the landingof a “cute” robot vehicle on Mars in 1997 surprised many news professionals with the amount of public interest-which might have been whetted by the bright and long-lasting appearance of the Hale-Bopp comet a few months before.
11.6 Commercial Programming
657
The loss of two Mars landers in 1999 caused hardly a ripple-after all, the last manned flight to the Moon had occurred in 1972, and Mars was along distance away. Surprising many newspeople and viewers alike was thehuge emotional reaction to the accidental death in 1997 of Great Britain’s Princess Diana and-two years later-the death of John F. Kennedy Jr. in an aircraft accident. Massive news coverage continued for weeks.The bombing of the federal building in Oklahoma City in 1995 was made particularly poignant by the large number of small children who were killed. While the 1998 impeachment trialof President Bill Clinton was covered thoroughly, many felt that the coverage was focused more on the titillation of his relationship with Monica Lewinsky than with any constitutional questions, unlike the Watergate case that forced Richard Nixon to resign the Presidency a quarter century earlier. An ethical problem that could affect the credibility of broadcast journalism stemmedfrom both a decline inprofessionalism and caps on network expenditures. For example, CNN talkmaster Larry King, whose program was asmuch entertainment as news, earned very large amounts of money in additionto his salary by being willing to speak to a wide variety of groups. Almost any newscaster could earn money without runbooks ning afoul of journalistic or economic ethical standards by writing or for the other print media. Sometimes this could tie in with programming, as with the best-selling history books that both Tom Brokaw and Peter Jennings produced at the end of the decade. All those whosefaces were seen often on the air, including such second-tier news personalities as Cokie Roberts (of NPR and ABC) and Jeff Greenfield (originally of ABC and later with CNN), could command fees in the many thousands of dollars for giving talks to professional, social, and business organizations. One of the few radio news program services, Monitor Radio, went outof business in June of 1997. An alternative to network and AP news, this respected service went theway of other Christian Science Monitorbroadcasting activities when financial difficulties arose. Both public and commercial radio stations found this service useful, because of its thoughtful coverage and commentaries on both foreign and domestic news. Because of its affiliation with Christian Science, the usual newsfare of disasters, disease, and crime largely were absent. Stations hunted for a replacement news source, with some signing on with the BBC World Service, which could provide news duringmost of the day via satellite.
-
11.6.5.2 Magazine Shows Explode
The networks increasingly placed their program focus on so-called magazine shows. Typically, they ran an hour, and concentrated on from one to
658
Chapter 11 A New Marketplace (1988-2001)
three stories. The first of this genre was CBS’s 60 Minutes, which went on the air in 1968, became the first news-related program series to make the “top ten” in the ratings, and stayed in that exalted position for many years. Other early programs-some of which dealt with hard news and some of which covered stories thatwere of decidedly limited importance, except for those viewers for whom gossip constitutes news-included Dateline NBC, which in the 1990s went head-to-head with 60 Minutes at 7 P.M. eastern time on Sundayevenings, and which had other editions on other nightsat one time five nights a week; 60 Minutes 11, intended to extend the franchise to another evening; 20/20,with Hugh Downs and Barbara Walters on ABC (as many as four editions on various nights); 48 Hours on CBS, which originally focused on collapsing two days of a continuing story into an hour; Primenme Live, on ABC; and Early Edition. Newsmagazine programs had many advantages to the television networks since theywere very cost effective, with a typical budget of perhaps $600,000 as compared to at least twice thatan hourfor most entertainment programming. Additional competition has resulted in somewhat lower audiences for any given program, but as a genre they are still very attractive to networks and advertisers. Although content duplicationsare more common than when only60 Minutes and 20/20were on theair, there still seemto be many original-although often inconsequential-stories available, surprising for a genre that (whileit may recycle some stories) tries to keep going all year around. One possible drawback to newsmagazines is that disgruntled subjects of stories are more likely to sue for defamation or privacy invasion. Another is that thehosts or stars of these programs are spread very thin, and thus their content has become the responsibility of a legion of little-known producers. News magazine programs expanded from two hours each on CBS and ABC in 1990 to five hours onNBC, three on ABC, and two on CBS in 1998. By 1999, the number of programs of this genre seemed to overwhelm both network schedules (13 of 22 prime time hours on the three largest networks) and significant content. Some magazine programs concentrated on sob stories, health oddities, crime, and other topics that were chosen for their interest rather than their importance. Some tried to engender fear rather thanknowledge. Some latched on to a formula that devoted the hour to a particular murdercase or other event or scandal. Although some correspondents and anchors were very experienced-several 60 Minutes correspondents and executive producer Don Hewitt were in their 70s”others were far less so, and even money-makers were subject to cost-cutting. Somewhat different from the rest was CBS Sunday Morning, whose low-key, beautifully shot, humane coverage of the arts, ideas, and sometimes events that normally don’t get covered, attracted a faithful audience. For 15 years, CBS newsman Charles Kuralt-best known for his “On the Road” segments on the CBS Evening News-presented this material with meticulous attention to the words he wrote and the subjects he covered.
11.6 Cammercid Programming
659
Kuralt, whose rumpled, balding appearance was a living reproach to the typical blow-dried anchor until hislamented death in 1997, was one of the last who wrote all of his own copy (he hadstarted out as a writer for newsmen like Ed Murrow). When Kuralt stepped down, he was replaced by Charles Osgood-who also had a way with words, most often heard in his five-minute programs (sometimes with poetry written about the day’s events) weekday mornings on CBS radio. The growth in number of magazine shows couldnot maintain the audience interest the way that the original 60 Minutes or 20/20 had in past years. Some of the newsmagazine clones ignored the originals’ attention to significant topics and detail, focused on scandal, gossip, and exploitation, and thenwondered why theiraudiences weren’t as large. Fox, forexample, offered a magazine show that, as one wag put it, always had at least one package per program on oversexed prostitutes and/or teenagers. Even more of a loss was the serious single-topic documentary format formerly exemplified by CBS Reports and only seen in the late 1990s on PBS’ Frontline and occasional specials. As might be expected, magazine programs tended to have a short life. West 57th, which took its name from the addressof CBS (CBS),Now (NBC),and Day One(ABC) news, Eye to Eye with Connie Chung all died quickly. A special case wasNightline, with Ted Koppel.This program-typically airing at 11:30 in the evening on east and west coasts, after the local late news on most affiliates-started in November 1979 (see pp, 540, 542) and never stopped being “must” viewing. Koppel, who hadremarkable skills as an interviewer and as someone who knew what was going on in the world, made Nightline one of the major programs-another was the long-running Sunday Meet the Press-on which thepolitically ambitious liked to appear. Koppel had no reservationsabout asking toughquestions,waswellprepared, and was not bound by a scripted scenario. For several years the length of the program fluctuated, depending on the topicbeing discussed and how interesting Koppel and his producers thought the topic and the guests of the evening were. However, ABC found that it waspossible to sell the time following Nightline for a pretty penny-most recently, the political satirical program Politically Incorrect, with Bill Maher, has occupied that slot-and restricted it to a half hour. The program typically includes a minidocumentary about the topic of the evening, followed by questioning that canbe either too long (if the guests are dull) or too short (if the guests are interesting). 11.6.5.3 Politics andBmadcasting
I
The 1992 election, with incumbent Republican George Bush losing to Arkansas Governor William Clinton was out of the ordinary for broadcasting. Many stations and some networks decided to not carry each party
660
Chapter 11 A New Marketplace(1988-2001)
convention in its entirety. A third party, dedicated to the election of and funded by wealthy industrialist H. Ross Perot, provided most of what excitement there was, particularly when Perot stepped outof the race, and a short time later returned to it. Political commercials often were vicious, and speeches and debates predictable. Clinton won, to the surprise of those who thought that a Republican dynasty that started with President Ronald Reagan in 1980 would continue. Perot garnered a respectable 19% of the vote. After the 1994 congressional election, much hadchanged. This election gave both the House and the Senate to the Republicans in a landslide, for what looked like many years to come. While nobody could be certain, most observers gave part of the credit for this overwhelming Republican vote to radio talk shows. Most talk show hostswere antigovernment, claimed to be libertarian, and appealedto the many disaffected members of the listening public. Candidates sought to appear on these programs, and what theselfappointed “ta1kmeister””such as Larry King, who was seen as neutral, and had a huge radio and television audience, and the far more conservative Rush Limbaugh-said was treated with great respect by many candidates. In 1994 right-wing talk shows apparently had great power, even credited with defeating House Speaker Thomas Foley (D-WA).But bythe 1996 election, the public seemed to have concluded that talk shows were of much less valuein making up their minds. While many showswere as virulent as before, their audiencesshrank, except for the hardcore of regular and often vocal listeners. But, for the 1996 elections, even though few of his major initiatives had been successful, President Clinton had adopted the middle ground on many issues, andplayed the media masterfully, which was one of the reasons why Senator Bob Dolelost. Few broadcasters paid much attentionto the political conventions of 1996. While C-SPAN and other cable services carried the programs from gavelto gavel as broadcasters once had, thecommercial networks carried only a sampling of the most important speeches, debates, and events for an houror two here and there each evening. The carefully scripted plans of the political parties for coverage wemwasted. The same political boredom affected election night broadcasts, which were much the same since the pioneering days of the 1920s. naditionally, election night meant that allmajor news departments were carrying the same sort of material, and thus competition between them for being first and audience was constant. In 1996, in markets with many political races to decide, there was some of the old excitement, but one had the feeling across the nation that station management-and audience-would be just as happy airing entertainment program reruns. After all, cable didn’t have a tradition of election night coverage, and thus was unhindered in its quest for audiences and advertisers. Early in 1998, the investigation of President Clinton’s investment in a real estate development (known as“Whitewater”) by special prosecutor Kenneth Stan took a new turn,one that filled the airwaves for more than a year.
11.6 Commercial Programming
661
Starr decided to focus on Clinton’s sexual dalliance with a young formerintern, Monica Lewinsky. It was a highly public, partisan, and lengthy process, that led to Clinton’s impeachment-the first impeachment of a sitting president in nearly a century and a half-in the House, but acquittal in the later Senate trial. Although Republicans maintained that Clinton’s peccadillos were the equivalent of President Nixon’s abuse of powerduringthe 1972-1974 Watergate case, the public-even after months of “all Monica, all the time” newscasts-wasn’t nearly so extreme. Some may have turned cynical, but not everyone adopted the “they’re all crooks!’’ approach. Yet, the move of news from information to “infotainment” was almostcomplete, and much of the public today would be hard pressed to distinguish between gossip and news, and between scandal-mongering and editorial opinion. While the general public continued to grumble about the growing cost of campaigning, which hadcaused some membersof Congress to retire prematurely, and the sources of the money to run a campaign-a nonpartisan list would includecorporations, labor unions, and foreign economic or political interests-they weren’t grumbling loudly enough to persuade Congress to enact a campaign finance reform law,since such a law wouldmake life more difficult for incumbents, and for broadcasters who probably would be required to provide some free time for candidates. Broadcasters looked forward to campaign spending every four years, and giving away time (i.e., audiences), their only commodity, was a frightening prospectparticularly since the First Amendment protected competing print media from having to give away theirinventory. The national political conventions were treated by thenetworks in 2000 in much thesame cavalier way that they covered the 1996 conventions. For the 2000 election night coverage, all of the networks continued to use pooled News Election Service reports of the resultsof “exit polls” and vote tablulations. And fell on their faces. ABC, CBS, NBC, and Fox [as well as every other media organization trying to interpret thevote) all managed to “declare” thatFlorida had gone forVice President A1 Gore, then that it had gone for Gov. George W. Bush, and then that it was too close to call-each network tracking its competition within a few minutes of each other on each zig and zag. It turned out that Florida indeed was too close to callwith only a few hundred disputed votes separating the candidates and the electorial college votes from Florida necessary to win the closest election in a century. From election night until a month later, when the results of the presidential race were finally known, all broadcast and print news media gleefully reportedanythingthat theycouldaboutthe vote count in Florida-from the fall of a chad (the little piece that falls out of a punch card) to the spin of a high priced lawyer. Public interest in the counting of ballots for the 2000 election far exceeded public interest in the substance of the campaign, possibly because of the limited charisma of the two main candidates and possibly because of having been conditioned to expect that horse races are exciting and worth viewing.
662
Chapter 11 A NewMarketplace (1988-2001)
11.7 Audience Fragmentation Television and radio were both considered necessities-by rich and poor, by exclusive clubs, welfare departments, and prison wardens. While there are a few families that do not have or use receivers, this was generally a matter of choice-particularly among some of the mostwealthy and highly educated-and not a matter of price or availability. Both broadcast media are in almost every home, in almost every room. They are used many hours a day. To many, they are essential. The more choices available in a given media market, the more fragmented audiencesbecome. While the television broadcast networks-and a very few cable channels such as HBO or ESPN-could still deliver a mass audience, most audiences were small, easily described or defined, selfselected, and loyal. This doesn’t mean thatthey tuned to one station all the time. Most people watched a few television stations and specialized cable channels out of all those available. If they were sports fans, they would turn to ESPN or the Sports Channel, news junkies would spend a lot of time with CNN and their favorite local station newscasts, and so on. They might also use a program guide to select network prime time programs. Radiolisteners usually selected only a handful of radio stations to tune to-perhaps one for news, one for local traffic and weather, one for sports, one for music thatrequired some thought when the listenerwas fresh, another “easier” station for when sheor he was tired-out of all those that might be available (more than 100 in some markets). Some people, of course, “surfed” the dial,and anyone could decide to select another programming source at any time, but most membersof the audiencewere creatures of habit. Of course, they can only select from what isavailable. Forexample, less coverage of political conventions and campaigns (see pp. 659-661), may help explain why fewer than half of qualified voters actually voted in 1996. (On the other hand, some broadcasters argue that this reverses cause and effect-public lack of interest in politics results in less coverage on radio and television.) While the public may become overloaded by political coverage and tuneout, on the other hand fear of crime in the streets apparently is more the result of excessive media coverage (see p. 653) than it is of real danger.
-
11.7.1 The Art of Choosing Audience selection among network programs became easier with devices that allowed VCRs to be programmed in advance using a number assigned to each program. These numbers were published in the ever-larger weekly newspaper program guides, and in TV Guide itself. This magazine-with one of the largest magazine circulations in the nation-had “dumbed down” its editorial content after Walter Annenberg sold its nearly five dozen separate editions to Rupert Murdoch for $3 billion, but still provided
11.7 Audience Fragmentation
663
program listings for the thousands of programs and movies available in a particular market, saving a great deal of time that otherwise would be spent surfing during an evening of television watching. VCRs, now foundin more than 80% of American homes, gave rise to a new business that took off in the 1980s: the rental and sale of videocassettes. Video stores can be found in most malls or shopping centers. There are more than 90 million video rentals a week, nearly one per television household. Federal law has now bannedkeeping of records on an individual’s movie choices-on grounds of preserving privacy-an action greeted with a sigh of relief by those who rented pornographic films. Carrying an inventory that ranged from a few titles on a shelf in a village general store to thousands in a major city emporium, this businessflourished for several decades. In 1997, however, Blockbuster-the largest video store chain, an arm of Viacom, which is now the owner of CBS-gave several explanations to stockholders why the numberof rentals was going down. One was that a growing number of viewers had many-channel cable service or satellite (DBS) receivers-and once they had access to more than 100 channels, they didn’t need to rent. Another was that manyviewers were buying, not renting, and building up a library of favorites. Yet other reasons dealt with the smaller number of new films being released, the uncertainty caused by the approval of digital television-and the weather (when it is good, people are outdoors, rather than watching television). All of these reasons have some validity. The public also was interested in video games, whether a Nintendo hooked into their television set or installed on their home computer or downloaded from a satellite or from the Internet. As early as 1997, the public started to show concern about the governmentally mandated obsolescence of their television receiver and VCR (see pp. 600-601). By 1999, those stations that were already transmitting DTV (at least one station in markets servicing more than three-fourths of the US.population) were proclaiming their foresight, and the networks were producing some programs-such as NBC’s Tonight show withJay Leno-for the new standard, but the mass public still wasn’t buying. Regardless of whether DTV would actually be in their market by early in the21st century, if someone needed a television set because the old set had broken down, or because the idea of having a set in another room in the house seemed good, they went out and bought a new NTSC set. Prices were low, there were remote controls for everyone-although males still continuedto try to monopolize their use-and DTV was a long way away, wasn’tit? 11.7.2 Patterns of Viewing and Listening R
The 1990s were an era of “more”-more channels and more watching, although what was watched was changing. In 1990, 65% of homes owned more than one television receiver, whereas by 2000 that number had
664
Chapter 11 A New Marketplace(1988-2001)
climbed to 76%. The numberof cable subscribers grew even faster, from56 to 76% of American homesin the samedecade. VCR ownership grew from 65 to 85%, while the use of remote controls expanded from 77% to virtually everyone by the turn of the century. Use of television, as measured by the numberof hours the set wasoperating, rose to 7 hours and 24 minutes by 1999,up from 6 hours and 55 minutes a decade earlier. But the “more” is particularly evident in the growing number of viewing options. In 1990,the typical home could receive 33 channels, but could choose from among62 at the end of the decade-nearly twice as many. The typical audience share of the varied video services has changed substantially. According to Nielsen data, in the late 1980s about two thirds of viewing was of network affiliates,independent stations took about 20%, basic cable 13%, pay cable about 7%, the remaining 4% watched public television. But a decade later the numbers were very different-the network affiliates only attracted 54% of viewing, independent stations had declined by almost halfto 11%, while basic cable had ballooned up to 41%. The other choices showed little change. (Becauseof overlap, these proportions do not add upto loo%.) Another option, not yet well recorded, is the Internet. In early 1999, Nielsen began regular Internet audience measurement, so there is the beginning of an historical record. At that time, the Internet audience-a perhaps misleading label-was growing by 1.8million people a month. The typical Internet household was on lineabout 7.5 hours per month, just under a half hour per surfing session. Radio usageremained fairly steady throughout the 199Os,and the Internet has only incidentally impacted radio listening because many people attend to both activities at the same time. However, as more radio stations take to theair, and as more stations stream their audiothrough the Internet, the audience for each becomes a smaller overlapping sliver of an already heavily divided pie.
-
11.7.3 Effects, Real and Otherwise
In the late199Os,the cable television industry funded a three-year investigation of television violence. Conducted by academic researchers at several universities, the resulting three reports demonstrated that violent programs remained very much a staple of American programming. The broadcast networks, however, largelyignored these findings partly because, with the television ratings scheme and related V-chip in place, they may have felt that they had met theirresponsibility. However, news coverage of violence in schools, particularly the extenshootings in Littleton, sive coverage of the ColumbineHighSchool Colorado in 1999, made such content-both news reports and police/ adventure dramatic programs-a convenient target, one that couldn’t be sweptunderthe rug. Legislators, police, and others, including many
11.7 Audience Fragmentation
665
parents, felt that there had to be a connection between fictional violence on television and real violence in the schools. Such a simple cause-and-effect relationship-copycat crime-has rarely been demonstrated, but there is clearly a lot of smoke, and many believe that where there’s smoke, there’s fire. Just as important, television sets the agenda, and the more violence shown on television-even though only a small handful of the thousandsof schools in the nation are involved-the more people think violence is pervasive. This is similar to the public belief that thestreets are much more unsafe than is reflected in the statistics gathered by lawenforcement officials.
-
11.7.4 Rumbles over Ratings
The business of finding out how many (and which kinds of) people were watching and listening grew both more complicated and less crowded in the 1990s. The key problem for both stations (which paid for the ratings) and advertisers (who used them) was thelack of choice among ratings companies as the business settled into monopoly. There also were substantial technical problems to overcome, such as how tomeasure audiences of new channels and newmedia. After years of playing a weak second to A. C. Nielsen, Arbitron tried to improve its competitive position with its “ScanAmerica” system, which combined program ratings and product-use data and thus wouldbe of great use to advertisers and advertising agencies. But the high cost of the system and lack of sufficient industry support forced Arbitron to abandon this effort in 1992, and two years later Arbitron withdrew completely from providing local market television ratings. By then thesole provider of both national and local TV ratings, Nielsen generated a great deal of broadcaster discontent. Nielsen continued to use paper diaries for local ratings because they cost less, even though they weren’t as accurate as machine data. On the nationallevel, Nielsen had initiated “people meter”ratings, measuring individual rather than household viewing, in 1987, using a sample of 5,000 households. But the television networks, unhappy thatpeople meter data showed a steady erosion of their audience, always seemed tobe on the verge of dropping Nielsen serviceexcept that there wasno alternative. In 1997, Nielsen again became a separate company after several years as part of Dun & Bradstreet and later Cognizant. Eighteen months later, Nielsen was sold to the Dutch publisher VNU NV for $2.7 billion, and pledged to continue operating as it had during its first half century. Arbitron, having left national ratings to Nielsen, focused on local radio ratings, a market that Nielsen hadabandonedin 1964 and BirchScarborough left in 1991. Continuing to rely on two-week written diaries, Arbitron regularly surveyed some 260 radio m a r k e t s t h e 95 largest all of the time,and theremainder in the Spring and Fall. National radio program
666
Chapter 11 A New Marketplace(1988-2001)
service ratings were derived by RADAR (Radio’s All-Dimension Audience Research), which was performed by Statistical Research Inc. using telephone survey methods for a week at a time twice a year. Measurements of newer media were slow to develop, since there were substantial methodological problems counting such scattered audiences. Nielsen had first provided cable ratings in 1979,and upgraded that service with more market-level information in 1992,allowing a comparison of cable with broadcast station tuning. Nielsen also measured use of VCRs, including the time-shifting function, four times a year. Several firms, of which MediaMatrix was dominant, provided estimates of Internet use-total amount of time spent on the Web, which sites got the most “hits,” and so on.
11.8 Legislation, Deregulation,and Policy
llllllR
During the 1990s,regulatory concepts dating back to shortly after the Civil War were quietly overturned. The “public interest,convenience and necessity” seemed less andless to be the basis for governmental decision making. Selecting a licensee on the basis of what might most benefit the public became suspect, and wealth (spectrum auctions) and (lotteries) luck substituted. The “deregulation” of the 1980s became no regulation in the 1990s. The very idea of regulation was considered archaic and impractical. During the 199Os, if someone thought of a possible way to make money, the necessary spectrum would be found by the FCC-perhaps at a price-and sometimes needless of interference and economic damage that might be done to other services. Communications efficiency, built into theCommunications Act of 1934,gave way to desire-for example, when vulnerable radio circuits were used to replace more reliable wire circuits in order to save a few dollars anda bit of time and effort. Government’s various roles-as facilitator, user, and regulatorremained, but sometimes were used inappropriately, as whenCongress assigned the Pentagon such varied tasks as leading roles in research for highdefinition television and breast cancer research. When the biggest user of electronics, the government, wanted something, it would get made-and then themanufacturer would seek civilian uses. Generally, they were successful, as witnessed by such successful adaptations as the Boeing 707 jetliner and theever-more-useful GP1 (geographical position indicator), which measures how long a signal takes to reach any four of many orbiting satellites, and uses thosefigures to plot exact (if a U.S. military user) or approximate locations (if a civilian hiker or boater, since the military is justifiably wary of having unfriendly parties useGP1 as an aid for targeting missiles), thus enabling cell phone (or automobile) companies to suggest restaurants or gas stations in one’s immediate neighborhood. Regulation was almost abandoned in many arenas, with the motto being “that regulation is best that regulates least.” By 2001, the FCC no
11.8 Legislation,Deregulation,
and Policy
667
longer showed any real advocacy for regulation in the public interest. Ideas like “the free marketplace” and the resulting “untrammeled competition” were the current philosophy all over Washington, even if the government’s other roles, as provider of facilities and research and as industry’s biggest customer, came in conflict with a strict interpretationof this philosophy. 11.8.1 A NewTelecommunications Law
The single most important change in policy in the1990s was the passage of a substantial package of amendments to the Communications Act of 1934 that became collectively known as the Telecommunications Act of 1996. That some change was needed had been recognized for years, at least as far back as Rep. Van Deerlin’s 1978-1979 attempt to totally replace the 1934 Act (see pp. 562-566). But deciding exactly what changes should be made, and how to implement them, delayed final action of the Telecommunications Act for some time. The 1994 Republican takeover of both houses of Congress indirectly ledto more delay, as bothWhite House and Capitol Hill relearned the delicate arts of compromise and leadership. The 100-page legislative package that had been developed over several years finally was signed into law inFebruary 1996. Most provisions dealt with common carrier (telephone and data), with onlyfew a sections specifically concerned with broadcasting or cable. But these were sufficient to cause dramatic change. The broadcast license periodwas extended to eight years for both radio and television, up from the five years for television and seven for radio adopted in 1981.This reducedpaperwork for both industry and government and served to reduce broadcaster anxiety. Another related change served the same end, but may be more farreaching. For decades, broadcasters had lobbied Congress for “renewal expectancy”-a term signifying that a licensee could count on renewal unless found guilty of a serious transgression. While it seldom happened in practice, station ownersalways seemed to fearthat acompeting application at renewaltime would cost them theirlicense-or, at least, would throw the renewal into acomparative FCC hearing to decide which applicant (theexisting licenseeor the challenger) would provide the better public service. A few notorious and expensive cases in the past kept the issue high on the broadcasters’ agenda. The 1996 act contained a provision that required the FCC to take formal action to turn down an existing licensee before it could even consider a competing application-a very unlikely event. This provision gave broadcasters virtually all they wanted and greatly limited the FCC’s-or any challenger’s-freedom of action. The effective result of the new law was to mandate renewal of any license if: the station had served the public interest, had not been found guilty of “serious violations’’ of the Act, and hadcommitted “no other violations’’ of the Act or FCC regulations
668
Chapter 11 A NewMarketplace
(1988-2001)
a
Telecommunications Act of 1996 and the Electronic Media These key provisions selected from the electronic mediapart of this landmark legislation (which was largely devoted to the common carrier telecommunications industry) demonstrate the political strengthof those in Congress who wishedto implement a new political and economic ideology. Whereshown, the section number refers to the amended Communications Act of 1934. Purpose of the act: To promote competition and reduce regulation in order to secure lower prices and higher quality services for American telecommunications consumers and encourage the rapid deployment of new telecommunications technologies Program ratings: Require, in the case an of apparatus designedto receive television signals that are shipped in interstate commerceor manufactured in the United States and that have a picture13screen inches or greater in size . . .,that such apparatus be equipped with a feature designed to enable viewers to block display of all programs with a common rating [such a s those adjudged by the ratings process to have high amounts of violence or sexual content]. . . (303(x)) License period: Each license granted for the operation of a broadcasting station shall forbe a term of notto exceed 8 years. (307(c)) License renewals: . the commission shall not consider whether the public interest, convenience, and necessity might be served by the grantof a license to a person other than the renewal applicant. . . [unless the renewal applicant has failed to meet each of the following three standards:] (A) the station has served the public interest, convenience, and necessity; (B) there have been no serious violations by the licensee of this Act or the rules and regulations of the Commission; and (C) there have been no other violations bythe licensee of this Act or the rules and regulations of the Commission which, taken together, would constitute aofpattern abuse. (309
..
(k)(1 I 4))
Ownership of radio statlons: . .. eliminate . . .any provisions limiting the number A Mofor FMbroadcast stations which may be owned or controlled by one entity nationally [and] eliminate . . the restrictions on the number of television stations that a personor entity may directory or indirectly own, operate, or control, or have a cognizable interest in, nationwide and. . . by increasing the national audience reach limitation for television stationsto 35 percent. Cross-mediaownership: l permit a person or entity to own or control a network of broadcast stations and a cable system. . .
.
1
1
..
. ..
J
“which, taken together, would constitute a patternof abuse.” It would be a tall order to find a stationin violation of these provisions, considering current regulatory and enforcement criteria, and thus renewal may be expected in virtually allcases. As a result, there has been destruction of the abilityof listeners, groups, and communities to effectively challenge existing licenses. Ever since the courts held in the 1960s that the public had legal “standing” in license granting or renewals (see pp. 460-463), the very existence of this possibilor FCC decisions. ity servedas a partialbar to unreasonable licensee actions But under the 1996 Act, the public has lost this leverage.
11.8 Legislation,Deregulation,
and Policy
669
A thirdchange probably already has hadmore impact than Congress intended. It required the FCC to remove all restriction on howmany radiostations an owner could control across the country and also opened up opportunities for owning a number of stations in the samemarket. Long-standing (and enforced) FCC duopoly and multiple ownership rules that had prevented ownership of more than one station of a type ( A M , FM, or television) in any one market were largely swept awayfor radio in 1996 and television in 1999. This enabled station owners to minimize costs and competition, and thus maximize profits. While no one owner could control more than half of the stations in any market, in the largest cities (those with 45 or more radio stations) one owner cold have up to eight stations (no more than five in the same service, AM or FM). In a market with as few as 14 stations, a single owner could now own up to five, no more than three in the same service. An almost immediate result was a sharp trend toward radio industry consolidation. In the first year after passage of the 1996 Act, multiplestation ownership grew amazingly-with upward of 200 stations licensed to a single licensee. By 2001,the largest group (Clear Channel Communications and AMFM) ballooned to more than 1,200 stations, with several others controlling several hundred stations each. Market-by-market, buying and selling went on as companies tried to position themselves in the potentially profitable situation of having a strong multi-outlet position. Individual radio station prices shot up amid all this merger and acquisition activity. The Justice Department finally slowed things down by issuing an informal ruling to the effect that, in spite of the 1996 Act, no one owner could control more than half the radio advertising revenue in a single mark e t - o r the antitrust laws would be brought into play. In mid-1999,the FCC announced thatone entity could control two television stations in the samemarket if there were at least eight other stations operating there. The “if” reduced theeffect of this change to approximately the 50 largest cities. A single owner couldcontrol overlapping stations-as might happen, for example, in the crowded Eastern seaboard, involving cities such as Baltimore and Washington, D.C. Continuing the relentless march toward deregulation, in early October 2000 the FCC suspended the political editorializing and personal attack rules for the 2000 election campaign-and was almost immediately trumped by the U.S. Court of Appeals for the District of Columbia, which ordered the commission to “immediately repeal” the rules on procedural grounds. While this case maygo through further appeals, the National Association of Broadcasters (NAB) and the Radio-Television News Directors Association (RTNDA) (which has been fighting against the Fairness Doctrine since 1980, see pp. 566-569) both claimed it a notable victory toward removing the last vestiges of the Fairness Doctrine, most of which had been repealed by the FCC in 1987. RTNDA’s position has always been based on the First Amendment-against external restraints on journalistic judgment. NAB’S
670
Chapter 11 A New Marketplace (1988-2001)
position may have been based more on financial considerations. What little objective research exists on the benefitsldemerits of the Fairness Doctrine for the general public has had little attention paid to it, as contrasted to the oratory that hasbeen employed by the proponents of this deregulation. The small group of public interest advocates who still favored the Doctrine on the basis that the airwaves belonged to the people could only hunker down and wait for the regulatory pendulum to swing again in the future. Although the FCC continued to search for new efficiencies (such as placing all license actions and identifications in a computerized database, assigning unique numbers to each licensee) and explored ways of increasing its license fee income, not all of these efforts were successful. The amount of money the FCC could raise by lotteries or by auctioning spectrum for personal communications devices was greatly misperceived. Some of the winnersin the first ($10.2billion) auctionof this spectrum had to ask for a bailout,bankruptcy, or both. This failure to move ahead not only cost the FCC fee income, but itprevented any use of the frequencies in question until thematter was settled in extensive further FCC and court proceedings. 11.8.2 Legislating DecencyProtecting Children
m
As a product of their never-ending struggle to be re-elected, many members of Congress focused on the possible (i.e., not really proven) cause-and-effect adverse impact of broadcasting (and other media) on children. Since this clearly is a useful political issue, hearings have been held fairly regularly since the 1950s (see pp. 385-387) about the impact of televised sex and violence, or about the lack of sufficient educational programming or moral emphasis. In the Children’s Television Act of 1990,Congress mandated that television stations air at least a minimal amount of “pro-social” programming each week. The FCC was required to monitor and limit the amountof advertising carried in suchprograms to 12 minutes per hour on weekdays and 10.5 minutes on weekends. Although the now-defunct NAB Code once required such limitations, this was thefirst time that Congress had passed a law mandating a specific kind of program or limiting the amount of advertising on the air. In subsequent rulemaking, the FCC defined this Act to control programs intended primarily for an audience of those who were 12 years old or younger. Under pressure both from children’s advocates and the White House, the FCC in 1996 followed up with a requirement that the “minimal amount” be three hours of such “pro-social” programming a week. The new rules required that the shows beaired at reasonable times (neither too early nor too late for children) and made the word“educational” clearer in intent. Protecting children from violence, sex, obscenity, and other antisocial messages on television or radio has proven harder to accomplish, thanks to the First Amendment. The Telecommunications Act of 1996 took a
11.8 Legislation,Deregulation, andPolicy
671
different route by requiring manufacturers to include a “V-chip” (“V” for violence) in all new television receivers. This computer chip would allow parents to automatically block out programs they didn’t want children to view, using a rating system that networks and stations employedto identify such programs. While the Act did not mandate a particular content rating system, it gave the FCC the right to establish a committee to decide on a system if the industrycouldn’t agree on one. After fulminating about potential court appeals based on the First Amendment, broadcasters decided that discretion was the better part of valor and agreed to establish a system based in part on that used by the motion picture industry, and even began to encode the rating information on their channels. However, afterall of the debate, the public-even parents of small children-seemed little interested in buying (and programming) V-chipreceivers. The seemingly unending concern with indecency and obscenity on the air (see pp. 580-581) didn’t slacken in the 1990s. The FCC attempted to define a “safe harbor” for the airing of indecent but otherwise protected speech. Congress became concerned that, since children could be in the audience at any time, they could be exposed to obscene and indecent material. In 1990, obeying a mandate from Congress,the FCC completely banned this sort of content-only to be reversed a year later by the courts on the grounds that this lawwas too broad to survive under theFirst Amendment. Congress, in 1992, then mandated that such programs be allowed only between midnight and 6:OO A.M. That limitation was soon modified, and the current safe harbor between 1O:OO P.M. and 6:OO A.M. was established. Congress entered the scene again in 1996, with a broad statute (the Communications Decency Act, part of the larger 1996 Telecommunications Act)
m
Television Code Categories
(1) Solely for children:
TV-Y
Appropriateforallchildren(specificallydesignedforChildren 2-6) Designedforchildrenaged 7 andolder:whocandistinguishbetweenreality and make-believe. TV-n-Fv Same, but with fantasy violence that maybe stronger than in other programs
TV-Y7
(2) For ail audience members: TV-G Generalaudience;littleornoviolence,stronglanguage,sexualsituations. TV-PG Parentalguidancesuggestedasmayhavesomeviolencesexualsituations, language or suggestive dialogue TV-14 Parentsstronglycautioned:samelimitations as above TV-M Matureaudiencesonly.May be unsuitableforthoseunder age 17.
(3) Additional content warnings(Added In late 1997) V Violence S content Sexual L language Strong D Suggestive dialogue Fv Fantasy violence
672
Chapter 11 A NewMarketplace
(1988-2001)
forbidding both obscene (not protected by the First Amendment) and indecent (protected, although punishable under earlier statutes if broadcast) speech. An amendment, namedafter Nebraska Senator James Exon, spread a broad blanket of prohibition across the electronic media, telecommunications generally, and the Internet-and was appealed within hours of being signed into law. Within a year, the SupremeCourt had decided by avote of 7 to 2 that it wasfar too broad and vague to be constitutional, in spite of its laudable goal of protecting young children. Related to this, butreceiving much more public attention, was Howard Stern. The New York-based “shock jock” DJ became the center of controversy in the early 1990s. His employer, Infinity Broadcasting, racked up huge FCC fines for Stern’s suggestive and indecent sexual innuendos. By 1993 the fines totalled $1.7 million, in part because Stern was carried on stations across the country and each airing was considered a separate violation. With a numberof station sales and purchases held upby the FCC because of the fines, Infhity finally paid them in two installments. Although complaints about Stern showed littlesign of abating throughout the decade, his popularity on both radio and television assured at least near-term continuation of his program.
-
11.8.3 Cable’s Regulatory Roller Coaster
Attempting to limit obscene or indecent material on cable has proved even more complicated and contentious than it has with traditional broadcasting. Several states attemptedto mandate control of indecent cable program content in the 1980s, but were overturned on appeal when the courts held that, as a subscription medium,cable is notas intrusive as broadcasting. In the Cable Act of 1992, Congress gave cable system operators the option of banning indecent programming on public or governmental access channels, or at least moving such programming to a single channel. Courts upheld this provision, as it left the choice in the hands of system managers. As part of the 1996 Telecommunications Act, Congress required that cable systems completely block or scramble both the audio and the video portions of any cable service primarily dedicated to showing explicit sexual content, unless it were limited to the “safe harbor” hours of 10 P.M. till 6 A.M. This requirement survived court review in 1996-1997, in part because it still provided system operators with a choice-they could schedule this programming for hours when childrenwere unlikely to be in the audience. Cable had other bouts with legislation. After deregulation of cable in the 1984 Act (see pp. 574-575), cable’s subscription rates soared at a far faster rate than general inflation. At the same time, theindustry’s reputation for service dropped sharply, and complaints flooded into the FCC and the Congress. Despite the public relations activities of the cable industry, the
11.8 Legislation,Deregulation, and Policy
673
perception of cable being greedy led to a congressional revisit of the issues in 1992, followed by reinstatement of some regulation of the industry. Local franchise authorities again were given some rights to control basic cable rates, and theFCC was told to establish rulessetting up reasonable rates for other tiers. The FCC responded with decisions that rolled back basic cable rates a bitbetween 1993 and 1995 (pay cable and pay-per-view were not affected by this law), althoughfew consumers noticed much difference, and many complained about the complexity of the newrules. The 1992 Act also reinstated another cable industry concern, mustcarry (see p. 575). Must-carry requires cable systems to carry all television stations within theircoverage area. Originally mandated by the FCC in the 1970s on thebehest of television broadcasters, these rules had been twice overturned by court review in the mid-1980s as unconstitutional. But the television industry, fearful that any stations not carried on cable would wither away, lobbied for the return of these rules-and Congress finally acted accordingly. The 1992 Act also mandated thatcable programmers sell their programs and services to competing modes of delivery (e.g., DBS, MMDS) at nondiscriminatory prices. This helped reinforce the FCC’s post1979 ideology that the best regulation would be effective competition. In 1996, the Congress again reversed course. Persuaded that other media competitive with cable were developing, the Telecommunications Act relaxed or rescinded much of the rate regulation structure that haddeveloped since 1992 and further deregulated basic tier rates in 1999. If rates again matclimb so high that Congress becomes aware of public unhappiness, this ter will no doubt again be revisited. Another unresolved question was that of cable’s carriageof digital television signals-which would require major investment in new facilities. As this is being written, there was no firm requirement about must-carry, or about the idea thatcable should carry broadcast HDTV signals-thus making the new service virtually unavailable to two thirds of the national audience (see pp. 602-606). 11.8.4 Torts and Ethics
mnwma
Although the laws of libel andslander, concerns about invasion of privacy, and questions of broadcasting’s access to court proceedings had long been subjects of discussion in newsrooms, a numberof news operations tangled with the law in unusual ways. For example, ABC’s Primenme Live program telecast a segment in 1992 that attacked the Food Lion grocerychain onseveral grounds, including false labeling and unsanitary handlingof meat. To get the story, ABC producers (acting as reporters and camera operators) had lied about their current employment on application forms, and had been given jobs at Food Lion. Usinghidden cameras and similar techniques,the story was reported. Food Lion cried “foul,” and, instead of bringing suit for defamation (in which it would have had to prove “actual malice” on the
674
Chapter 11 A NewMarketplace (1988-2001)
part of ABC), it sued ongrounds of trespass, obtaining employment using false credentials, not doing the task for which they were employed by Food Lion, and similar torts (injuries).A North Carolina jury agreed strongly with Food Lion and, in 1996, ABC was assessed more then $5 million. Although this sent a strong message to television newsrooms-as did an earlier case in which NBC used pyrotechnic devices to make sure thatan “unsafe” gasoline tank exploded-on appeal thedamages ABC was topay were reduced, first to $315,000, and thento a token $1 from each of the twoproducers. Another widely publicized case also concerned food. When the popular daytime talk show host Oprah Winfrey claimed on the air that she would never eat another hamburger after hearing criticisms of beef safety, the Texas Beef Group sued under a state “agricultural products libel” law, claiming that the broadcast had cost their industry millions in lost sales. Relocating her program temporarily from Chicago to Amarillo, Texas, for the trial, Winfrey added to the publicity. After a six week long trial, the j u r y found in favor of Winfrey, although winning it hadcost her between a half million and a million dollars. Numerous other instances of problems with both the lawand ethicse.g., the NBC gas tank fakery mentioned above, and an eventually discredited CNNl7hne program about American military forces using poison gas on American defectors in Cambodia (see p. 656)“apparently is just one part of a blurring of the linebetween entertainment and information, “infotainment.” Since news is now expected to be a cash cow for both stations and networks, personal ambition and competitive pressures make it increasingly difficult for reporters, editors, producers, and anchors to avoid shortcuts, “do the right thing,” forgo sensationalism, and meet their responsibilities to the audience. 11.8.5
arrrsr
Players andhenas
Congress continued to micromanage telecommunications, including broadcasting. The FCC, shorn of much of its authority and now downto five members, struggled to keep abreastof the manychanges in technology, ownership, and the political climate. In the 199Os, tenure on thecommission tended to be short, and membership often wassuccessfully proposed to the White House by powerful membersof Congress. Whileindividuals like Chairman Kinnard in the late 1990s attempted to demonstrate independence and authority, this posturing rarely was successful or lasting. Becausethe FCC was supposed to oversee electronic media industries of vital concern to the public, a member of Congress could garner much desired publicity by attackingthe FCC on any subject, from low-powered FM (see pp. 612-613) to the move of the FCC’s headquarters from its convenient location in the middle of the lawyer’s enclave in Washington to an isolated spot in southwest District of Columbia. With Michael Powell assumingthe chairmanship when the George W. Bush
11.9 Into the 21st Century
675
administration started in 2001, and with a Republican majority on the commission, it looked like moreemphasis on market forcesrather than public interest regulation in the future in the FCC as well as Congress.
11.9 Into the2lst Centurv The new laws discussed above have helped displace the old standard of “the public interest, convenience, and necessity.” The Telecommunications Actof 1996 adopted the marketplace conceptas the best wayof promoting the public interest-even though there is very little research as to whether this approach really works. One side effect of such a philosophy has been to weaken the standing of members of the general public in challenging licenses. Most legislators and members of the FCC genuinely believe that unlimited competition is the best wayof achieving the public interest. Unfortunately, in order to ensure that competition exists, there is a strong tendency to redefine “the market” to include every electronic entertainment medium (including computers) as a member,(The equally likely possibility that unlimited competition is one of the first steps on the road to monopoly is similarly unproven.) Another casualty in many communities is the loss of localism. Local programs cost more to produce than network or syndicated shows-and broadcasting is a business. Elimination of many of the restrictions on number of stations an entity may own means that both the stations and the audiences they serve are nothing more than commodities, as are the programs they produce and watch. Yet, there is little outcry from the public. Instead, one can see that nearly everyone is plugged in-to radio, cassette or CD player, television set, computer, VCR, telephone-much of their lives. And these lives are being lived at a faster pace, thanks to the Internet and other electronic media. The Internet is not “broadcasting,” but it clearly is rapidly growing in importance. As an almost anarchistic web, it is neither controlled by large conglomerates nor by government. This isn’t to guarantee that this situation will continue-and the growth in only a handful of years of advertising, e-commerce, and exchange of information between Web sites is a sign that change is fast upon us-but it is quite clear that the public has taken the Internet’s effectively unlimited information (and entertainment) resources to heart. While the electronic media promised to obliterate distance, it wasn’t until space communications satellites were introduced that distance truly became irrelevant. Now, news canbe gathered from anywhere withoutdelay, and programs can be distributed over a third of the globe as easily as across town. DBS has become common around the world,even though terrestrial transmissions remained the norm, particularly in the United States.
676
Chapter 11 A New Marketplace (1988-2001)
-
11.9.1 Changes around the World
In other parts of the globe, similar changes occurred-with due regard for national regulatory systems. For example, Rupert Murdoch’s “Star” DBS system (founded in 1991, with Murdoch taking over two years later), witha footprint serving most of Asia, is very careful to avoid content thatmight offend the largest potential market in the world, the People’s Republic of China. Murdoch and his News Corporation avow no responsibility except to the bottom line. The ability of smaller nations to restrict potentially damGermany ataging or subversive content was less clear, although at one time tempted to restrict many Internet sites they thought indecent-only to have a worldwide outcry against the practice. CompuServe, one of the major American Internet service providers (ISP), had immediately complied, but its subscribers put pressure upon thecompany to rescind that action. Some nations have moved away from international shortwave broadcasting in favor of satellite transmissions to local stations in other countries; for example, BBC programs from the United Kingdom are currently aired over many stations in the United States. On June 30,2001BBC ceased broadcasting via shortwave to most of North America. Moreover, in Spring 2001, Swiss radio announced that they were planning to drop international shortwave and most direct satellite transmissions in favor of increased Internet usage foraudio and connectionsto European cable systems for video. The International Telecommunication Union (ITU) underwent its first major reorganization in a half century in 1994, when it scrapped its old structure and elevated the goal of assisting developing nations in meeting their communication needs to the same level as its traditional task of setting technical standards and determining spectrum policy in order to coordinate and regulate radio and wire transmissions that crossed national boundaries. Previously, many decisions were made between pairs of nations-and often at the working rather than the policy level. Now there are other goals, but overall telecommunications allocation decisions remain in ITU hands, continuingits status asa stellar example of international political and technicalcooperation for more than a century. However, even with the mechanisms providedby the ITU, a number of worldwide technical standards never were adopted, because too much money and political reputation would be put at risk. The standardsfor digital television (see pp. 602-606) are a case in point. Some developing countries stillyearn after the goals of the 1980 UNESCO Report (Sean MacBride, Many Voices, One World),which would have justified censoring communications across borders in some cases, or restricting imports of VCRs or satellite reception equipment, or access to the Internet,in others-all in the name of preserving national or religious identity. However, the economic need of most nations to be part of the World Trade Organization, whose members agreed to open their national telecommunications systems to
11.9Intothe21stCentury
677
competition and potential outside ownership, has limited barriers at the border in most instances. In some nations, the ideological push for competition led to the abandonment of long-standing policies. For example, in the United Kingdom, great care had been taken for nearly four decades to ensure that virtually every home would be able to receive BBC-1, BBC-2, and ITV (commercial) television signals. But there were too few frequencies available to provide the same level of access to any new networks-and the Conservative governments of Margaret Thatcher (1980-1991) and John Major (1991-1997) had many entrepreneurs demanding a chance to make money with television. So, a law was passed in 1990 giving them the chance to become the highest bidder for the available channels. Thus, Channel Four, started in the early 199Os, and a fifth channel established in 1997 could not be received by anything like the full British population. The establishment of satellite services such as Murdoch’s BSkyB may have further reduced the potential profitability of new channels-but that wouldn’t stop those who still believed that itwas impossible to lose money on television. In themeantime, the BBC went through several directors-general and a great deal of staff unrest in both its domestic and World Service branches as cost-cutting and lowering of program quality to compete with ITV became the order of the day. A new(commercial) Radio Authority licensed several hundred local-oftenvery localstations. Canada had a different experience. Since the national government wished to cut costs, the Canadian Broadcasting Corporation found itself with muchless money-and more expense, since thecost of new technologies and the needfor service in both English and French was high. Premier Jean Chretien’s government cut thenetwork’s subsidies by30%, and further cut its internationalshortwave services. At the same time,a growing number of private radio and television stations picked up some of the domestic programming slack. Canada remained torn between its desire to remain ~ e e of the cultural colossus of the south-the United States, with hundreds of stations that could be seen or heard by Canadian viewers and listeners, most of whom lived within less than 100 miles from the border-and its financial difficulties. Although quite a few U.S. television shows are filmed or taped in Canada because of substantially lower costs, this only has a local effect. Throughout the 1990s there were skirmishes about the carriage of programming from the United States on Canadian cable systems-which served almost the entire population-and even about the tax deductibility of Canadian payments for advertisements in magazines published in the United States but distributed across the border. Curbs on imports of popular music helpedpromote a thriving Canadian music business-which has a strong presence in the United States as well. There is something ironic in this, sincea great many Canadian musicians, actors, writers, and producers have had highly successful careers in Hollywood.
678
m
Chapter 11 A NewMarketplace (1988-2001)
Epilogue: September II,ZOOI
By 2001, most Americans thought that traditional network newswas an increasingly irrelevant “dinosaur.” They also figured that mass displays of patriotism, common when theU.S. entered World War H, would never appear again.They were wrong on both counts. OnTuesday,September11,2001, terrorists hijacked four commercial airliners loaded with passengers and fuel, and deliberately crashed two of them into the twin 1 10-story towers of the World Trade Center in NewYork City, anda third into the Pentagon.The fourth smashed into a field after passengers tried to regain control from the hijackers. Thousands lost their lives, including hundreds of emergency personnel crushed when the WTC towers collapsed. Nobody knewat first whether the first crash was an accident or a deliberate act.The impact of the second jet into the other WTC tower removed any question. All networks immediately began fulltime live coverage, combining news (such as grounding of all air travel) and considerable speculation andrumor, much of whichlater proved false. Fortunately, New York had greatly improved its emergency responses after a 1993 bombingin the same World Trade Center. Media technology-including minicams, satellite trucks, and cell phones-had greatly improved broadcasting and cable’s abilityto respond as well. “Crawls” generated at the bottom of network pictures reflected content convergence with banner-ridden InternetWeb pages. Satellites allowed commentary from anywhere in the world. Minicameand even consumer videocameras-gave astounding multiple views of events. Although transmitters for New York television stations had been destroyed, most of the nation and New Yorkers with cable never noticed. For the first time since the 1963 assassination of President John F. Kennedy (see p. 444), Americans absorbed four full days of continuous television and radio network coverage of a single event. By week‘s end, networks had offered more than 90 hours of non-stop coverage, compared to about 70 hours in 1963.The topanchors-Peter Jennings (ABC), Dan Rather (CBS)and Tom Brokaw (NBC)-seemed to go without sleep for days. The older networks were joined by CNN (“breaking news” choice for many viewers) and Fox news. Commercials disappeared, as did entertainment programming except on a few cable channels. Stations and channels without their own news operations aired reports from “hard” news sources. Broadcast news did its traditional job exceptionallywell, linking the worldto news of the grim destructionand its long-lasting aftermath. Instead of the classical music that provided emotional succor in 1963, there wereinspiring interviews with some of the volunteer-mergency crews, construction workers, medical personnelwho dug into theworld‘s largest mountain of rubble, often with bare hands and shovels, seeking the all-too-few survivors.Their actions, and many interfaith church services, contributed to a growing patriotic fervoras the fact sankin that America had become a battleground. Congress almost unanimously gave President Bush power to wage war against the then-unknown terrorists. National Guard units were called up and flags sprouted on homes and highway overpasses. Only after five days did entertainment programs (and commercials) begin to on trickle the air,back and professional sports restart (although hamperedby air travel slowdowns caused by security measures), but it was hard to returnto a “business as usual” mentality even after stock markets opened on Monday.The world had changed, argued many of those who called local radio stations to talk about their feelings. But nobody knew whether the early cooperation, contributions, and volunteerism would continue when faced with the more mundane aspects of life. Sixty years earlier, when President Franklin D. Roosevelt asked Congressto declarewar against Japan following the sneak attack on the U.S. fleet at Pearl Harbor (see pp. 223-226), he began: “Yesterday, December 7,1941,a day thatshall livein infamy .“After the terrorist attacks, an NPR commentator, recognizingthe wall-to-wall coverage by the national networks, said “September 11, 2001, a day that shall livein imagery. . .”
..
SelectedFurtherReading
679
Selected Further Reading: (Akhabetical withintopics. For Full citations, see Appendix D.) The fast-changing electronic media scene at the turn of the millennium is described in Auletta (1991 and 1997), Baker and Dessart (1998), Compaine and Gomery (2000) on ownership trends, Grant (1991-1996), Hilliard and Keith (1999) on low-power TV, Keating (1999),MacFarland (1997), Parsons and Frieden (1998), Steinbock (1995), and Walker and Furguson (1998). Digital television is thefocus of Brinkley (1997), de Bruin and Smits(1999), Dupagne and See1 (1998), and Van Tassel (1996). The growing importance of public broadcasting is made evident in Collins (1993) and Looker (1995)"both focusing on NPR-Jarvik (1999) on Masterpiece Theatre,Land (1999) and Lazar (1999)"both of which profile Pacifica radio-and McCourt (1999). Public television's development is reviewed in Stewart (1999).Eastman and Furguson (1997) is a useful analysis of program decision making in the late 1990s. See titles relating to broadcast journalism in the selected further readings of chapters 9 and 10; also Foote (1998), Gunther on ABC news (1994), Hilliard and Keith (1999) on hate radio, Hunt(1999) and Thaler (1997)on the0.J. Simpson frenzy, Keith (1995) on Native American broadcasting, Murray's (1999) encyclopedia of television news, and Spragens (1995) on television magazine news programS.
A current survey of commercial audience research is Webster, Phalen, and Lichty (2000). Among discussions of policy are Krattenmaker and Powe (1995), Lipschultz (1996) on the FCC and indecent programs, and Price on theV-chip (1998). Changing international electronic media are described by Allen (1995), Avery (1993), Boyd (1999),Browne (1999),European Audiovisual Observatory (1995-date), Noam (1992), Smith (1998), Tracey (1998), and Woods (1992 and 1999).
"We are getting deeper and deeper into our subject. A few momentsago we were wading. Now we are swimming. Let us hope that we shallnot drown. to mix the There is only one way to understand a subject, and that, metaphors a little more, is to take the bull by the horns."Raymond Yates and Louis Pacent, THECOMPLETE RADIO BOOK(l 922)
TV
reception from satellite dishes, 2001"and later. Ruth Mnndel. 681
Chapter Outline 12.0 Evolution 683 12.0.1 Questions and "kends 683 12.0.2 Seeking Patterns 685 12.1 Innovating Technologies 686 12.1.1 Invention and Innovation 686 12.1.2 External Forces 687 12.1.3 Technological 'hade-offs 688 12.1.4 Individual vs. Industrial Inventing 689 12.1.5 Patents and Standards 690 12.1.6 The Roles of Government 691 12.1.7 Inertia of Older Technology 694 12.1.8 A Few Predictions 696
...
12.2 A Local Station Service 698 12.2.1 NationallLocal Dichotomy 698 12.2.2 Programming: A Push forProfit 699 12.2.3 Haves and Have-Nots 701 12.2.4 Obsolescenc-the Ultimate Prediction 702 12.3
. . .with National Program Suppliers
682
12.6 Programming: An Expanding Menu 719 12.6.1 Unoriginality 720 12.6.2 . . . and Originality 722 12.6.3 Tactics 723 12.6.4 The Importance of News 724 12.6.5 A Few Predictions 727
...
12.7 And What of the Audience? 728 12.7.1 Activists and Passivity 729 12.7.2 Worry about Effects 730 12.7.3 Critics and Criticism 731 12.7.4 A Few Predictions 733
703
12.8 A Changing Policy World 734 12.8.1 Reluctant Regulator 734 12.8.2 The Faceless Staff 735 12.8.3 ConcentratingOwnership 736 12.8.4 Seeking Fairness 737 12.8.5 Lobbying 738 12.8.6 Other Agencies 740 12.8.7 Self-Regulation 740 12.8.8 PlanningAhead 741 12.8.9 A Few Predictions 742
711
12.9 And if There Were No Broadcasting? 742 12.9.1 DailyLife 743 12.9.2 SocialMovements 744 12.9.3 Other Medidother Regions 745 12.9.4 SummingUp 746
12.3.1 NetworkDominance 703 12.3.2 EastCoasVWestCoast 704 12.3.3 OwningNetworks 705 12.3.4 OperatingNetworks 706 12.3.5 CableNetworks 708 12.3.6 Public Broadcasting Networks 709 12.3.7 Current Status and What May beNext 710 12.4 The Public Broadcasting Alternative 12.4.1 What's It For? 711 12.4.2 Growth 712 12.4.3 Seeking Funds 713 12.4.4 A Few Predictions 714
12.5 Dollars and Sense 715 12.5.1 Programs as Bait 715 12.5.2 Origins 716 12.5.3 Advertising 716 12.5.4 Direct Payment 717 12.5.5 Specialization 718 12.5.6 Other Income Sources 718 12.5.7 A Few Predictions 718
hile the pastmay appear complex, it nevertheless is possible to discern patterns and trends that illustrate-and even explainthe evolution of broadcasting over the eight decades since its start. But the future is always cloudy, particularly when trying to predict the fast-changing development of the electronic media. This doesn’t stop usand others-from trying!
W
’
12.0 Evolution It is unlikely that the guesses of any of the players in thisgame, including broadcasters, entrepreneurs, inventors, content providers, cable and DBS operators, regulators, legislators, managers, financiers, talent, manufacturers, engineers, critics, and others will be fully correct. So, we certainly aren’t pretending to be omniscient-no prediction isa “sure thing”-but in this chapter we offer both our opinions and a number of questions intended to highlight both past trends andlikely future directions. 12.0.1 Questions andTrends
lllllR
As pointed out in the first chapter of Stay n n e d , many of today’s institutions are the descendents of events, trends and ideas of years past. For example, although the 21st century opens with something “new,” the promise of a digital broadcasting system (one that would require replacement of existing receivers), we went through an analogy of this development when color television was adopted in the 1950s. So, are the claims valid that today’s multi-billion dollar gamble (using the consumer’s money) will revitalize the American electronics manufacturing industry and give the audience more new content on more channels than they possibly could hear or view? Willthe continuing covergence of print, broadcast, and theInternet change the face of all mass media-and even the concept of mass communication? Stay tuned. The general public doesn’t fully understand (or care about) the economic, technological, and politicalforces that change the mass media. Most people haven’t thought of the implicationsof recent developments, such as globalization of the mass media or whether the Internet willbe a friend or foe of older media. Most people seek content choices and lowprices. But many in
684
Chapter 12 Lessons from the Past for theFuture
the various industries that make up the electronic media are thinking ahead, andare using the lessons from the past for their own benefit. For example, the FCC approved digital television standards in the 1990s. But the FCC has its own agenda, and the newrules allow a broadcaster to provide either one channel of high-definition television or four (or more) channels of NTSC television. Since thereis a lot of old (hence, inexpensive) programming available for NTSC, and sinceit islikely that astation will have a larger total audience for four channels peddling familiar fare than for one channel purveying new (even though possibly of higher quality) content, which choice do you think most broadcasters will make? After all, even though some electronic media (such as cable) rely on direct payment by the audience, the fiscal backbone of American broadcasting is still advertising and audience size the is key to advertising income. Will the public, after buying their new DTV set wonder whatever happened to the HDTV that attracted them in thefirst place? Will the FCC and Congress really be willing to renderobsolete all those NTSC television sets in American voters’ homes? Will those who plan to produceHDTV programming other than sports, nature shows, and pageantry find a mass audience, or will they use costly other means of distribution (e.g., DVD)? Stay tuned. Regardless of how DTV/HDTV content is distributed, when(if?) NTSC transmissions are eliminated, more than 100 million American households will have needed to buy a new-and expensive-DTV receiver, as well as a new VCRIlarger computer hard drive/otherdevice capable of recording and playing HDTV (and thefamily’s “home movies”).Is this financially likely? Will attending to these gadgets, including the ubiquitous home computer, occupy more of people’s lives? Stay tuned. And will the continuing convergence of print, broadcast and Internet services fundamentally change what we read, see and hear? The proliferation of choice made possible by these new media and techniques will have many intended and unintended consequences. For example, can the agenda-setting function of major network newscasts continue, now that their combined audience share has shrunk below 50%? Will the public interest concept continue to decline in importance, being replaced by adoption of a commodity approach (i.e., everything can be bought and sold)?Stay tuned. The innovations that constitute modern electronic media have been adopted ever more rapidly. Although it took the telephone 80 years to reach 34 million homes, electric wiring 62 years, the automobile 49 years, the electric refrigerator 37 years-it only took radio 25 years, television 10 years, and the Internet less than a half dozen years to reach the same number. There are other series of “how long did it take” figures using different bases (50 million users, a fourth of American households (whichtakes account of the enormousgrowth in population in thepast century),etc.), but thebasic lesson is thesame-it is taking less and less time for a desirable inventionsuch as cellular telephones-to spread across the nation. (It should be remembered, though, that these new gadgets are hardly of equal importance.
12.0 Evolution
685
In fact, in 1999, CNN considered radio only the 40th most important story of the 20th century.) 12.0.2 Seeking Patterns
mmmwm
Though broadcasting first became important in theearly 1920%by the end of the 1990s there was an increasing industry focus on specialized narrowcasting. The number of U.S. radio and television stations has increased 25-fold in thelast threequarters of the 20th century. Instead of three or four national networks, and a handful of independent stations, the average American household now can choose among 50 or 100 video channels, as many as 100 radio signals, thousands of titles from the neighborhood video outlet or CDs from the nearby music store-and the entire Internet. It is obvious that no single channel can ever again enjoy the audience levels common as late as the 1980s, except for occasional specials such as the Super Bowl or the first series of Survivor. This has serious implications for the profitability of individual broadcast (or cable) services, the marketing and advertising of goods and services, and the unityof knowledge and attention of the population. All of these developments have led to a lack of continuity in our culture, a lack of understanding by politicians and the public of the potential roles and potential of electronic media, a lack of programmers who demonstrate good taste, a lack of stations that stillfeel that they have a public service obligation, and a lack of corporations with goals other than profit and growth. The public isin the middleof this fermenting caldron, with little impartial information on which to base the decisions it still isable to make. Even as the number of choices for content and delivery systems expands, the numberof those who actually control the electronic media continues to shrink. Instead of a maximum of 2 1 stations, a single licensee now can own thousands.In 2001, the FCC allowed a major network to control a smaller one, and was considering elimination of the wall between newspapers and stationsin thesame community. Such media kieretsu (a Japanese term for an interlocked web of agreements, activities and joint ventures) as Microsoft, Disney/ABC, AOL/Time Warner, GE/NBC, ATT/TCI, News Corp., and CBS/Viacom are strategically placed to benefit from, and probably dominate, newmedia developments. Today, they engage in various combinations of broadcast television (networks and stations), cable, film and video production, Internet technology and content, satellitetransmissions, home video/games/interactive programs, sports teams and venues, print media (newspapers, magazines, books), telephone and personal wireless communication, music andrecordings, and themeparks. Some are involved in manufacturing and retailing. The long-range impact of such growing concentrations of ownership across so many media and services probably will exceed what we now can imagine.
686
Chapter 1 2 Lessons from the Past for the Future
In many ways, programmers, manufacturers, and the conglomerates and kieretsu that control them appearto be on the same side, withthe consumer/audience on theother. At least since the late 1970s, government also seems to be on the sideof the kieretsu, raising the question of what effect this willhave on the the21st century. Stay tuned. of as a busiWhether broadcasting (or other electronic media) is thought ness or an industry, an art, an application of technology, an embryonic profession, a force shaping our culture, an establishment or institution, a social phenomenon-and it is all of these and more-its roots, whether growing for a century (in terms of technological development) or only for 80 years (in terms of broadcasting itself), offer many useful patterns, principles and trends-and precedents. Our purpose in this final chapter is twofold: (1)to identify patterns, themes, and conceptsfrom the past that help explainwhy things happened as they did and (2) where possible, to suggest implications and lessons for the future. As acknowledged earlier, we are aware of the potentialpitfalls of prediction and extrapolation, particularly in a field as rapidly changing as this, sincehistory is not truly cyclical. Thus we intendto err on the side of caution. To the extent possible, this chapter parallels the internal structure of its predecessors in examining the difficulties and opportunities caused by technological innovation; the linking of local outlets (stations) into nationalservices(networks); the evolution of educational (later, public) broadcasting; advertising and other financial support and economic competition; program cycles and strategies; the changing size and behavior of the audience; government policy and regulation/self-regulation;and the primary reason for the study of broadcasting in the first place: the many social roles and impacts of American radio and television on the people.
12.1 InnovatingTechnologies 12.1.1 Invention and Innovation
M
Not all aspectsof technological development or innovation are strictly technical. Consider the differences between “invention” and the less easily achieved “innovation”; the interwoven concepts of “not invented here,” national security, and economic nationalism; the battles over a finite amount of usable spectrum space; the industrial or government research team as contrasted to the individual inventor; the search for common standards for any new device; the varied roles of government; the economic and marketing system into which an innovation is introduced; and thedifferent goals of manufacturers and users. There are large differences between conceiving or inventing something, which requires creativity and imagination; its development, using engineering or scientific skills and luck; and itssuccessful introduction or innovation,
12.1 Innovating Technologies
687
which requires financial, promotional, legal, and marketing skills-and more luck. The number of inventors in this field who died destitute-one even died of starvation-testifies to the needfor a sound business head at the innovation stage. Edwin Armstrong, an inventor of outstanding talent, had been a successful innovator until hetangled with RCA over FM. Marconiand Alexander Graham Bell had good business managers, but Fessenden, de Forest, Stubblefield, Farnsworth, and many others did not. They never enjoyed sufficient good fortune or entrepreneurial skill to innovate successfully. 12.1.2 External Forces
IBlmmm
The “not invented here” syndrome(i.e., it wasn’t created in our shop, so we will have nothing to do with it)often has led to the disregard of inventions from competing laboratories or other countries, and the consequent wasted motion of duplicated effort. While less important in the United States since domestic electronics manufacturers abdicatedin favor of their Asian competition, it still cropsup in the form of agitation for “American” standards for high-definition television. Closely allied toNIH is thedesire of each country to control its own telecommunications (and energy) sysis tems, for both national security and economic reasons. An example when the U.S. Navy objected to sale of the Alexanderson alternator to British Marconi after World War I. However, the need to coordinate radio frequencies on a worldwide basis has limited the effect of this factor. The combination of these forces has led many nationsto try to develop similar telecommunications devices and to establish tariff barriers or subsidiestoprotectdomesticinterests. However, strictly profit-motivated economics probably would lead to failure of a “go it alone” policy because manufacturing tends to move to countries wherecosts are lower. For example, no television sets have been manufactured in the United States for years-and high costs have moved set production from Japan to Malaysia, Korea, Indonesia, China, and Mexico. Governments of many Third World countries have supported political initiatives-such as the Unesco-sponsored New World Information and Communications Order in the early 1980s-that would give each nation equal access to the world telecommunications networks regardless of investment or other contributions. Also affecting both the introduction and use of new technology is the current support by industrially developed nations of international free trade and associated economic groupings of nations such as the European Economic Community.The World Tkade Organization and the World Bank are probably more important than thedesires of any one nation. Further, the very nature of shortwave broadcasting and increasing use of DBS and the Internet makes cultural and political isolation more difficult.The fall of communism in eastern Europe in 1989-1991 is perhaps the best recent demonstration of the effects of peoples communicating directly with peoples.
688
Chapter 12 Lessons from the Past for the Future
Some technological developments seem to have a life of their own. Small, incremental improvements keep older technologies-from automobile engines to radio receivers-in use, no matter how obsolescent they may be. Gordon Moore, Intel’s CEO, made a prediction decades ago that the amount of processing power that could be put on a computer chip would double every 18 to 24 months and that the cost would drop at the same time-and, to date, this has happened.For decades after the first geostationary commercial space communication satellite was launched in 1974, it was thought that there would need to be only a handful of them, but by 2001 there were some 200 in orbit, plus many times that number of military satellites belonging to many nations. Only the need to avoid interference, and international cooperation, has made it possible to provide efficient service.
-
12.1.3 TechnologicalTrade-offs
Another principle involves the need of radio communication services for frequency spectrum space. This has ledto many trade-offs between technical efficiency, fiscal economy, and political realities. At first, radio equipment could be imprecise, inefficient, and relatively inexpensive, because spectrum space was plentiful. As demand rose and spectrum space grew scarce, communication services required more sophisticated andexpensive equipment. But in thecase of broadcasting, investment by the general public in receivers designed for older frequency bands or standards delayed technologicaladvances. It haslongbeenthought that no member of Congress seeking re-election could allow the FCC to render obsolete all those expensive receivers in constituents’ living rooms. As a result, at the start of the 21st century, television is still “frozen” into mostly 1941 technical standards-and congressional support of the FCC’s decision to adopt DTV may well change because of this political factor. Other services, from amateur to maritime, have found, however, that they must constantly be aware of the FCC’s current penchant for awarding frequencies on thebasis of their highest and best use-which tends to reflect the political strength and sawy of those with other uses for those channels. In most previous instances,a new standardallowed an older one to continue inuse, as in thecase of FM stereo serving older receivers monaurally. Only if the new standard was marketed effectively and the new devices were cheap enough, could the public be persuaded to relegate the older form to another room, to relatives who might find it useful, or to the discard pile. In radio’s earlier years, discarded receivers were an inexpensive source of spare parts for young experimenters, but the complexities of solid-state circuitry nowmake this useproblematic. The replacement of black-and-white television sets in the living room by color took two decades, but it did eventually happen-although blackand-white portable sets are still sold. The British needed even longer to
12.1 Innovating Technologies
689
shift all television from the VHF to the UHF band, even with the“carrot” of allowing color only on the UHF, an important lesson as we contemplate the innovation of HDTV. Over the years, a number of new standards for musical recordings have come and gone, even with public inertia and unwillingness to discard older recordings (such as 78-, 33 113-,and 45-rpm disks, eight-track cartridges, and audiocassette tapes). The market life span of each standard may be growingshorter; the compact disc (CD) was still new to thepublic when DAT (digital audiotape) reached a level of development that caused its backers to suggest that DAT would soon replace CDs. Newer technologies-possibly computer based-may leapfrog both. Or, as has happened in the past, the older standard continues to serve a specialized niche for quite a while-after all, not everyone wants to buy a complete replacement musical library every decade or so; Betamax videotapes were available for many years after VHS won that war. But manufacturers have become aware that there is asmall but profitably significant public thatcan be depended on to buy almost any consumer electronics product so long as it is “new” and “better.” This initial market may be enough to create a “buzz” thatgives a newdevice or standard the publicity to attract a widerbased sales demand. The complexity, throwaway quality of many products(often difficult to repair even by the few repairers left), and pricing is often reflectedin the financially impractical (but marketing wise) attempts to sell “state-of-the-art” equipment, both consumer and professional. There still are trade-offs; for example, more sensitive cameras created savings in lighting instruments and the electricity to run them. Any major showing of new hardware-the EIA Consumer Electronics Show, the National Association of Broadcasters convention or the Society of Motion Picture and Television Engineers exhibition-is an opportunity to see how quickly manufacturers issue new models with bells and whistles to attract buyers, even though more managers and fewer engineers now make decisions on equipment purchases at the NAB. When coupled with theshorter life expectancy of such equipment-studio cameras once could be counted on for a decade’s service but now mustbe replaced much more frequently-it is no wonder that accountants in the electronic media industries find it accurate (as well as advantageous for tax reasons) to quickly “write off’ equipment, Some trade-offs are not, strictly speaking, technical. The desire of manufacturing corporations for quick profits probably has had more effectthan all of the world’s electronics inventors and engineers put together.
-
12.1.4 Individual vs. Industrial Inventing
In most technical fields in the past half century, invention has increasingly come from industrial or government laboratory teams rather than individ-
ual inventors. Even in the early 19OOs,such radio inventors as Fleming and
690
Chapter 1 2 Lessons from thePast for the Future
Alexanderson worked for large corporations, but others-e.g., Marconi, Fessenden, Farnsworth, de Forest, and Armstrong-worked alone or with a few subordinate helpers, and had to scratch for funding. The increasing complexity of telecommunication technology and the enormous cost of continuing research now favor team effort supported by large companies. On the other hand, market-driven planned obsolescence often places a premium onstyling and gimmicks rather than solid technical advances. While there still is a place for the small company with an excellent product-if financing can be found-it is no accident that the transistor came from Bell Telephone Laboratories and color television in its present configuration from RCA. The videotape recorder, firstproduced by then very small Ampex, nevertheless required more than a decade of financial support by a variety of foundations and corporations for its development. Only a handful of companies can now afford to design, develop, and manufacture any full line of electronic equipment, and even fewer are willing to take the risk. Economic pressure on all companies for short-term profits seems to be steering them toward applied rather than pureresearch. Even this applied research rarely is directed to items that would not be immediately profitable, such as high-quality UHF tuners for television sets, until attention is focused by the public or by government. With the removal of most consumer electronics production to the Far Eastand Mexico and deletionof tax advantages, research and development by American firms in thisfield has dropped substantially in recent decades-with full consequences we don’t yet know. 12.1.5 Patents and Standards
mxmFa
Two interconnected principles guide the adoption of inventions. First is a search for a common standard or specifications for a new device; second is the driveby each major company to have a commanding patent controlposition for products built to that standard. Sometimes this patent strategy is modified, as when N.V. Philips of the Netherlands allowed all manufacturers to use its audiocassette patents in an attempt to build up that industry. But the more common pattern is reflected in the drawn-out battles over patents for the telephone (Bell versus several others), the vacuum tube (Fleming versusdeForest), the regenerative circuit(de Forest versus Armstrong), FM radio (Armstrong versus RCA), television camera tubes (RCA versus Farnsworth), audiorecording speeds (RCA versus CBS), video recording formats and speeds (Sony versus many others), and so on. These battles sometimes shaped entire industries. Examples are the attempt to innovate mechanical scanning television before electronic scanning was perfected, the development of mutually incompatible color television systems in the late 1940s and early 1950s, and the more recent plethora of competing recording modes. While in the past the FCC made
12.1 Innovating Technologies
691
official determinations of standards, it now often defers to an ill-defined market-which often tends to make the buying public, wary of multiple standards, shy away from the product entirely (as with AM stereo). On the other hand, in the 1980s the market made VHS a de facto videocassette recording standard in the United States, beating out Beta. We don’t yet know the futureof HDTV, digital audio broadcasting, or higher-quality VCR or videodisc formats. Because legal, laboratory, and public relations battles are so expensive and lengthy, usually only the largest corporations are able to play. For general acceptance and total overthrow of one type of communication device by another, the marketplace is rarely sufficient, and generally either the industryor the government must impose a new standardor specifications by fiat. The risks are large, but so are the rewards: once the FCC, the public, or some internationalor industry body putsa stamp of approval on a technical standard, it isextremely difficult for a new and competitive technological approach to enter the market. Only when thegovernment intervenes on the side of innovation, or a company decides not to exploit a patent position, or the rest of the industry gangs up on a leader, or a new idea (such as television itself, VCRs and the Internet) catches the public’s fancy, does the field open up. Even then, good inventions and innovations may get buried under theweight of a 900-pound gorilla-as happened with Microsoft’s domination of personal computer operating systems. 12.1.6
The Roles of Government
In addition to its more obvious roles as both regulator and user of communication services, the government also is a facilitator. Congress appropriated the money that enabled Morse to build thefirst electrical telegraph line in the 1840s and, more than a century later, through the military and NASA, financed the development of space communications satellites. It is doubtful if either technology would have been innovated without government assistance. More recently, itestablishedtheInternet and becamedeeply involved with HDTV. The government also administers the patent system. The Navy-administered patents pool during World War I showed how industrial cooperation might be established in peacetime and World War 11 research opened up vast reaches of the electromagnetic spectrum. The Navy also stimulated the formation of RCA. During both world wars, the government created the conditions for a tremendous burst of activity in industrial laboratories designing and building war-related devices. Sometimes, however, the government acts against technological innovation by yielding to the greatest pressure, frequently from groups already in place in that industry, as during the periods when the FCC benefited AM and later VHF television station owners by using regulatory activity or inactivity to delay innovation of FM radio, UHF, and cable. More recently,
692
Chapter 12 Lessons
from the Past for the Future
Iere a Dish, There a Dish
Beginning in the 1980% the electronic media landpe across America changed rapidly.Various satellite receiving antennas cropped up at le head ends and television stations as domestic communication satellites became the ferred meansof networking local outlets. Taken at a headend near Washington, DC, sevItypes of antenna are shown in the left-hand photo, though the 10 meter TVRO in the ?ground is the most common type (although 3 and 5 meter “dishes” often are used). The ismission tower in the background mounts microwave dishes on its side, for renting .ce on the tower is another way to generate station income. At the same time, small conner TvROs of 1 2 or 18 inches in diameter (page 693) appeared on theroofs or sidewalls lomes and apartments as subscribers sought better program packages and prices than se offeredby local cable systems.
hristopher H. Sterling.
12.1 Innovating Technologies
693
694
Chapter 1 2 Lessons
from thePast for the Future
congressional and FCC willingness to assist entrepreneurs who wish to market wireless telephone has ledto shortages of spectrum space for other uses (even the military has had to relinquish some) and cellular phone and PCS towers are sprouting like weeds in urban and suburban areas. Also, even if the government does approve a particular standard, that doesn’t stop corporations from deciding not to play the game-as was the case with the FCC’s approval of an inadequate standard for television in 1940, and may be a reason for delay in adoption of DTV. Even though 60% of American viewers could view DTV over more than 100 stations by 2001 (if they bought DTV receivers), almost no informed observers believe that the original deadline (2006) for dropping NTSC broadcast service will be met, whatever Congress says.
-
12.1.7 Inertia of Older Technology
The innovation of equipment and techniquesin the broadcast studio and at the transmitter was more conservative than in most telecommunications fields, principally because most broadcasters were satisfied with the status quo and had littlefinancial incentive to improve. Hence, transmitters grew larger and more efficient but notessentially different. Studio control equipment became more flexible and more complex as both a reflection and a precursor of programming flexibility and complexity in both radio andtelevision. Adoption of solid state equipment took place only when broadcast station management realized the cost savings inherent in such devices. The advent of color programming in the late 1960s required the purchase of new and expensive equipment but did not lead to many newprogram ideas, and we’ll soon see whether HDTV follows the same path. At the start of the 21st century, the substitution of digital for analog equipment seems to be following a similar route, bringing the viewer a marginally improved picture and withnearly invisible improvements in reliability and noise reduction. Even though we now expect to see SNG “reporting livevia satellite” ontelevision news programs, the use of costly space communications satellites for other program production really is very limited, although they have found an important niche in program distribution. So, the story of technical innovation in the broadcast studio is replete with new “toys” for production people, but littlechange in content. One important exception, for which everyone had a use, was magnetic recording. In radio, recordings progressed fiom inferior techniques banned from the networks to a virtually omnipresent mode of programming. Tape permitted nearly random access to segments not possible with discs. In television, while film could be edited, until theadvent of videotape all non-film programming was live. With VTR, the programmer could edit, store, and rearrange at will-although losing some of the spontaneity of live production. When wedded to lightweight, portable color television cameras, the
12.1 Innovating Technologies
695
new generation of VTRs made possible electronic news-gathering (ENG)by one-person crews. The VCR now permits the consumer to accomplish some of the same functions at home, as well as the ability to timeshift programs. The broadcast receiver industry also has been cautiousabout adopting new technologies, but for political as well as economic reasons. Billions of dollars’ worth o f receivers in millions of voters’ homes causes tremendous political inertia, since most people aren’t about to replace perfectly good equipment without agood reason, and agovernment agency telling them to a reason,” At the same time, manufacturers also are rarely do so is not “good a willing to sponsorresearch or tool up for production unless they seecompetitive advantage in the fairly short term-it is muchmore efficient to copy the work of others. The expansionof color television came only after blackand-white television had reached nationwide saturation. High-definition television (HDTV) now is delayed in part by a saturated low-definition receiver market. Digital television (DTV) is starting to move only because of governmental insistence. The unwillingness of American business to take risks also may be reflected in thefact that thelogical union of direct broadcast satellites (DBS) and HDTV, already taking place in Europe and Japan,is merely being talked about in theUnited States. So far, with theexception of broadcast facsimile in the1940% no broadcast medium has been completely abandoned when a new medium or standard has been introduced and adopted. A black-and-white television set built in 1941 can still be used, despite the later introduction of color and UHF. An 8-track audiocassette tape machine or 78-rpm record player will still play music-from the right recordings. Many new devices use as a selling point that they are “downward compatible” with existing ones, although this flexibility is unlikely to survive manufacturing strategies that produce devices that cannot be repaired or adjusted, carefully meter out small and cosmetic improvements, anddesign built-in obsolescence. In another arena, Congress’ political goals sometimes ignore technical realities, such as the vulnerability of space satellite communications to solar flare interference, or when short-term profits for business constituents are more attractive than improving or even maintaining a current system or medium. This already has happened in the point-to-point field, where the military frequently abandons large embedded systems, such as use of the traditional radiotelegraph distress frequency of 500 kHz. It can be argued that the Clinton administration’s push for HDTV and better display monitors was more a political rather than a technical decision. Although there were technical studies as early as the 1940s that suggested the best frequency band to use for each kind of service-for example, using lower frequencies for signals that needed to reach around the world (see Appendix B)-the general strategy has been for each new service to try to get the lowest possible vacant frequencies, because equipment already has been designed to use them. Today, this often means moving “upstairs” from earlier versions of the same service: FM radio broadcasting had to move to the 88-108 MHz frequency
696
Chapter 12 Lessons from the Past for the Future
band, muchhigher than AM radio; second generation cell phones use channels that are hundreds of MHz higher than first generation ones, andso on. However, since thegovernment now is interestedin securing revenuefrom auctioning frequencies, a rational allocation of ever-scarcer frequencies seems even lesslikely. Getting ahead of the pack doesn’t always pay off. FM radio didn’t benefit after World War 11when itsbackers tried to label AM radio-an entire existing industry and its technology, entrenched in the home-as obsolete. The Iridium satellite-based public telephone system failed utterly. Achieving success for future innovation will take either powerful financial backing and acceptance of its standards by most of the industry for their own economic reasons, or strong political pressure toallow a direct approachto the public, as in pay-TV by cable. AM stereo, for example, had neither. While individuals have invented andsmall companies have built “better mousetraps,” the investment in manufacturing design and assembly lines is almost prohibitive except for the largest firms, here and abroad. If a small company’s product is truly competing in the market,it generally means that one of the large players has bought the product (or the company) from its originators. The publicmay benefit from innovation andfrom economies of scale and production-solid state receivers are cheaper and require less electricity than vacuum tubes, permitting the development of high-quality, battery-operated, portable equipment at a reasonable cost-but generally, technological innovations per se make little difference in the content and to hold on to obsolescent effects of broadcasting. As a rule, the public tends devices while they are still usable (and not embarrassingly old if seen by replace the old,even visitors), so it typically requires decades for the new to with thedesign of appliances with built-inobsolescence intended to speed the replacement cycle, and aresulting shortage of technicians willing to repair inexpensive equipment. 12.1.8
A Few Predictions
Since the future is unknown, any predictions we can make are necessarily vague. Itseems likely that changes in technology will continueto be evolutionary, since realrevolutions-as when transistors madecompact batteryoperated equipmentavailable to all, or as when computers and the Internet were integrated into daily life-are rare. So there probably will be more bells and whistles, similar to such recent developments as remote control tuners with memory and HDTV program production, even though such programs may bedistributed using the NTSC standard. The general public’s infatuation with home entertainment centers will create some demand for better television audio (in stereo) and video. Manipulation of signals by internal computer chips may permit receivers to fool eyes and ears into believing they are experiencing higher quality without using an inordinate
12.1 Innovating Technologies
697
amount of the electromagnetic spectrum. Specialized uses of the television channel-such as closed captioning for the deaf, interactive video games for children, or interfacing with home computers-will burgeon as DTV is adopted. Convergence will be the buzz word in the industry, but thegeneral public will still think of their living room screen as “television,” much in the way that aS W is a“car.” But, although the Internet and two-way cable already make it technically possible to vote, work or buy groceries from one’shome, it islikely to be some timebefore we close our doors and maintain our connection to the world electronically. The Internet may have many different but substantial impacts on broadcasting. By the start of the new century, most stations probably had some kindof Web presence, often permitting the streaming of their signal, so that people all over the world may experience what is now the rather poor quality picture and somewhat better sound of what at one time was a local station. This technology, only a few years old, is boundto improve, and the external antenna and specialized receiver may go the way of the dodo. One way to predict at least the rate of change in the future is to step back in time, and think about the changes in broadcast technology that took place over the past decade or two. There were many. Spectrum-greedy techniques (such as DBS) became political rather than technological problems. Wireless means of connecting equipment have superseded wires in many applications-but without a concomitant increase in reliability, however convenient they are. Broadcasters benefited from time base correctors that permitted use of cheap VTRs on broadcast channels, whileat the other end of the economic spectrum, production houses installed terribly expensive computer-controlled nonlinear tape editing devices such as those produced by Avid and other firms. New types of cameras, such as the CCD, required no alignment, lasted for years, needed little light,and are so small that the lens is larger than therest of the camera. Digital already is replacing analog transmission systems, leading to a “cleaner,” noise-free picture and sound. Stereophonic music is now aired on mostFM radio stations, and many television stations already transmit in stereo. The long-held dream of television receivers thin enough to hang on a wall has only recently been realized, remote controls and other conveniences are everywhere, the television and computer industries realize that agreement on monitor standards is necessary, and large-screen projection television sets are now common in homes able to set up “home entertainment centers’’ or “media rooms.” Home VCRs permit everyone to be his or her own programmer, through ever-more-easy-to-make off-airrecordings or rentals from the local store. All networks now use space communications satellites for distribution. In the new century, it is (fortunately) unlikely that all entertainment media will be replaced by such frightening specters as direct electrical stimulation of the pleasure center of the brain, which would easily provide
698
Chapter 12 Lessons from the Past for the Future
the ultimate “high.” But with better quality audio and video, the line between reality and fantasy will be ever more blurred-and what effects will that have? Decisions still are unmade as to how content is to be diswe benefit more from cable television (which tributed in the 21st century. Will ties television sets to a fixed wire) and DBS (which tethers them to a dish antenna)-or would high-quality miniature portable television sets or programming through the Internet be more attractive? Who will control the “last mile” of broadband service to the home? Will everything be wireless (with allof the problems of uncoordinated spectrumusage that is entailed), or will fiber optics become the transmission mediumof choice? Stay tuned. The home VCR took less than a decade to reach the number of homes that cable took 40 years to reach-but can this rapid market saturation of new devices to be exceeded in thefuture? Stay tuned. For the first time, wemay have more channels available through cable than we have worthwhile (defined as you will) programming to fill them. Each of these technologiesand many others not mentioned or even dreamed of-will affect the electronic media andthe audiences of the 21st century.
12.2 A Local Station Service
RRrmm
...
From the start, the FCC’s practice of granting licenses to local radio and television stations (mandated by Congress many years ago) has worked at cross-purposes with the national economic character of network advertising and their ability to cover the nation instantly.
-
12.2.1 NationaVLocal Dichotomy
Responding to the American federal political principle of sovereign states and local electorates, the FCC licenses stations to provide service to a specific legal, political, and technologically determined community. It has made almost every broadcast transmitter a separate “station,” applyingregulation to this level rather than to the national networks whose programming attracts most advertisers, A similar fiction considers every cable system as a separate unit, without regard to the multiple system operator (MSO), which almost certainly controls it. For many years, the FCC strictly limited the number of stations a licensee may o w n in order to ensure local expression, furnish advertising facilities for local businesses, and assuage congressional fear that a handful of companies might dominate the media. The expectation was that the local station was a force in itsgeographic or social community. In times of crisis or disaster or local political activity, only local broadcasting stations could rapidly provide necessary information. Other media, such as cable, might be technically capable but rarely have the will, equipment, or personnel for local reporting and programming. Local outlets also provide training grounds for new talent since to
12.2 A LocalStationService
...
699
jump right from college onto a national stage-even if only on a littlewatched cable c h a n n e l i s not a good way to learn one’s craft. But the localism philosophy clearly is in full retreat, as is a legislative tendency to favor rural areas to counteract the “one person, one vote” Supreme Court decisions starting in 1962. For better or worse, the tendency toward greater ownership concentration is likely to continue for sometime, as legal limits on number of stations a licensee may own are reduced or eliminated. DBS is likely to lead to even greater national-and internationalconcentration than now provided by the networks or group owners. Evena truly local medium, suchas low-power FM (LPFM),in trying to establish itself againstthe economic desire of advertisers and existing stations to reach the maximum numberof people, may have to develop its own networks, if it survives. But the political pendulum swings, and inthe distant future this trend toward concentration may be thought of as a temporary policy aberration. Or it may not. Stay tuned. Let’s take another example. Although economies of scale led radio broadcasting from wholly locally owned and programmed stations to a system of content control by national networks in the late 192Os, after World War I1 the pendulum swungback. With network executives preoccupied by television, the demise of network radio, and thousands of new AM and FM stations, local radio program control seemed to reappear. But this was only an illusion, sinceformulaic music content (e.g., Top40), imitation of successful formulas, syndication (often by satellite), and a limitednumber of nationalmusicprogramsourcessoonpredominated. Althoughthereissomenewsandtalk,particularly in markets large enough to accommodate such minority programming profitably, even it is often syndicated, and radio today-with 10 times the numberof outlets as at the endof World War II-is what David Sarnoff labeled it eight decades ago: a “musicbox.” 12.2.2 Programming:A Push for Profit
It is no surprise that radio formats, let alone specific programs or talent, can often change overnight if the licensee believes it desirable. Licensees are continually scanning the local market, looking for a potentially profitable niche. Today, that often-narrow window of opportunity is all-important, and stations may discard decades of good will and history by changing call letters as well as format, and calling the result a “new station.’’ Television is slightly different. Most stations air the samenetwork programs at similar times in most areas, limiting the actual content diversity available. The 20% or so of stations that are independent (non-network affiliated) usually rely on syndicated fare (often old network programs) for much of their schedule, sinceprofits can be made from low costs as well as high income.
700
Chapter 12 Lessons from the Past for the Future
The result, for both radio and television, is a host of local transmitters offering a limited number of similar programs. Confirming this pattern is the FCC practice of permitting absentee and group ownership of stations, which means thatstation management and ownership is not the sameas local community control. Those who control perhaps hundreds of stations no longer owe special loyalty or service to any single community, and the station (and its audience) becomes just another indistinguishable commodity to buy and sell. This isn’t to say that manystations, usually smaller ones in smaller markets, don’t have conscientious operators who are as much a part of their community as was the traditionalsmall-town newspaper publisher. But such smaller operations are threatened, causing 600 of them to complain to the FCC in 2001 that thegrowth in number of network 0-&-Oshas given the networks (and other large group owners) too much power. A similar national pattern has evolved with cable television. Although cable operators have from dozens to hundreds of channels to fill, there seem to be either never enough or far too many. “Toomany” only applies to systems with 100 channels or more, which often duplicate a great deal of content and give over many channels to home shopping. But even as late as 2001, many cable systems still only provided as few as 50“or even 20channels, forcing often-difficult choices of what to carry. Withstockholders breathing down management’s neck, it isn’t hard to make the choice between a channel that brings in additional income (e.g., home shopping) or a free public service (e.g., C-SPAN). Here again, primary program fare on cable systems is anything but “local.” It consists of rebroadcasts of network affiliates (including PBS), both old and new feature films (e.g., HBO, Cinemax, Bravo, AMC), sports (e.g., ESPN), superstations (e.g., WTBS, WGN) from elsewhere in the country with “independent” programming, and a growing number of national cable-only services providing news (e.g., Cable Network News (CNN) and MS-MC),or aimed at those interested in gardening, health, weather, religion, children, health, science-fiction, golf, history, and a myriad of other topics. As with radio and television in recent decades, the number of locally originated cable programs is tiny. During the 1985-1987 period, when the FCC’s musf-carryrules were not in effect, cablesystem operators often made local independent stations pay for carriage. Some local network affiliates were dropped when a big-city affiliateof the same network wasadded. These practices led to new FCC must-carry rules hated by cable operators and loved by broadcasters,particularly marginal localtelevision stations. The cable industry has ratcheted up its fight against must-carry,particularly with respect to DTV transmissions that might duplicate NTSC broadcasts. This is a complex matter, with strong argumentson both sides. Today, stations can negotiate such matters as channel placement with cable operators, and even threaten to levy a charge for carryingthe channel. In 2000, during such negotiations, the Time Warner cable systemin New York City brieflystopped carrying the ABC affiliate during a time of very popular programming-leading
12.2 A LocalStationService
. ..
701
to a public relations disaster and FCC censure. Despite this adverse public reaction, the soon merged Time Warnerand AOL heated up theconflict with Disney/ABC even more. Each tried to use its own political, economic and public relations clout to secure carriage of programs it owns. In a sense, videocassette recorders (VCRs) might be considered as the ultimate in local programming control. Anyone can become his or her own programmer, choosing from a variety of rented, purchased, and homerecorded content-almost all of it national, not local,in origin. The streaming of broadcast content on the Internet similarly allows the recipient to control what musiche or she listens to, although the economics of this “ancillary broadcasting’’remain unclear. 12.2.3 Haves and Have-Nots
wumm
The tensionbetween the haves and have-nots among broadcasting stations has been a continuing theme over the decades. Those already on the air have little economic reason to encourage competition. AM radio and, later, VHF television station licensees became the broadcasting “establishment.” AM radio resisted both FM and television, but when thefinancial potential of television became evident, farsighted AM licensees often started television stations. The roughly 100 VHF stations on the air before the Freeze (1948-1952) epitomized this dominance, forcing UHF stations licensed after 1953 to struggle-and more than 100 to fail. Both AM and VHF shared several attributes: they generally had been successfully established long before the directly competing FM and UHF services were introduced; they received the most revenue; and they controlled the industry’s trade associations. Advertiser acceptance, network status, andlarger audiences belonged to the older andgenerally more powerful AM and VHF services as late as 1980, when cable began to level the playing field and eliminate UHF television’s technical handicap. F M , with its better sound quality and more organized programming, grew after 1965 to become the most audience-appealing (by 1980) and profitable segment (in the 1990s) of the radio broadcasting industry, in spite of AM’s feeble attempts to use stereo to compete. Any potentially competitive service (in the past including FM radio, UHF television, on-air pay-TV, or cable television, and today including DBS, satellite-delivered broadcasting and HDTV) or government regulation threatening the livelihood of existing stations is strongly attacked at the FCC, in the courts, and in Congress. Logically, older services try to keep newer competitors from full development by political action (politicians are very sensitive to the wishesof any medium that helpselect them) and economic pressures, or by themselves becoming involved in the newer medium-which helps containthe potential competitionby occupying one of its channels.
702
Chapter 12 Lessons from the Past for the Future
In recent years new classes of have-nots have appeared wanting to get in. These include minority groups that either lack funding to purchase a station or, because of the startling growth in number of stations (nearly 12-fold since World War 11)-lack channels on whichto build a new station. Local community-supported stations andcable systems often are looked down on by more traditional andlarger profit-oriented broadcasting stations. A move to establish very low power television stations (LPTV),with very small coverage areas, predictably has rarely been successful. A parallel move (often spearheaded by community activist “pirates”) for low-power FM (LPFM) was cut off by the “haves” even earlier-being strongly opposed by existing broadcasters (both commercial and non-commercial) warning of interference and worrying about further splinteringof audiences. Although it is popularly believed that a broadcasting (particularly television) licenseis tantamount to a license to print money, a surprising n u ber of stations have gone bankrupt, andothers jump for any incomesource, such as home-shopping services. To launch a new service successfully against an entrenched and uncooperative industry is even more difficult than gaining a foothold in anexisting service. The truism that “them that has, gets” holds particularly true in theelectronic media. Many stations pioneered by those willing to take risks achieved financial success which supported the political power often used to perpetuate their status. Later owners of these stations-often large conglomerates willing to enter any profitable industry-benefited from their predecessors’ struggles. In such circumstances, both the haves and the have-nots feel ill-used. The clear implication is that any new service can succeed onlyby overcoming the oppositionof the powerful existing industry. Economic resources, talent, and programs are hard to get as the new service struggles for public recognition and acceptance. Without such acceptance, manufacturers of consumer electronics are unwilling to do anything and advertisers ignore the newmedium. 12.2.4 Obsolescence-the Ultimate Prediction
s”=m
Some experienced media observers argue that transmitter-based local stations already are obsolete and will soon disappear. They suggest that broadband (probably fiber-optic) wired connections-a frightening specter to both broadcaster and cable operator (except those nowowned by telecommunication companies like AT&T)-being installed by telephone companies will be the likely future. Large cablesystem operators have decided to go the same route, withbroadband fiber optic links allowing them tooffer Internet and telephone connections as well as video and audio.DBS operators since 1999 have both the right and the responsibility to carry local signals to subscribers in that area. “Broadcasting” might eventually degenerate into a content service sharing broadband transmission paths with the Internet to
12.3
. . , with National Program Suppliers
703
feed programs and movies automatically into home video recorders, Such possible changes will not happen quickly, since investment in the status quo by both the public and broadcasters is too great forthe existing system to be junked overnight. And it may be that-if one doesn’t want local contentthe corner video store or the Internet will become the most popular content distribution mode in the early 21st century instead of local stations. But if some newand exotic electronic media service fills a public need or wish better than broadcasting, change probably will come-slowly and marked by some accommodation between the new service and the existing industry. However, if it does not fill a public need or desire, no matter how muchballyhoo is engendered, the new mediumis unlikely to succeed, as broadcast facsimile and other services learned in the past. Stay tuned.
12.3
...with National Program Suppliers
The most important thing about the three older commercial networks (ABC, CBS, and NBC) is their long-term dominance of broadcast programming, economics, and public image. 12.3.1 NetworkDominance R
Perhaps surprisingly, the big three have remained on top in terms of revenue, even though cable, VCRs,DBS, independent stations, Fox, WB, UPN, PBS, and theInternet have made seriousinroads intomajor network audience levels, particularly during prime time. In the 1970s, the three large commercial networks reached more than 90% of television households in primetime; three decadeslater, that proportion had dwindled to less than two thirds of households and was dropping. No one network consistently dominated during the past half-century. ABC, for example, made the circuit between have and have-not at least twice, and in 2001 appeared tobe in its thirdcycle. Because the needto have network outlets in many communitiesin order tobe truly national runsafoul of technical shortages of channels, as well as limited talent to create popular programs, it has been difficult to establish new networks except at the very beginning of a medium’s development. Fox, benefiting from Murdoch’s huge investment, acquired an audience for some programs, but remains smaller than ABC, CBS, and NBC-and WP and UPN are much smaller than that. Since their formation for radio in the late 192Os, networks have controlled audience loyalty, in spite of their varied roles as carriers of others’ programming, increasing use of Hollywood product, great caution in accepting let alone adopting change, and some usurpation of their program distribution role by cable,satellites, MMDS, and VCRs. Their chief strategy, economy of scale-more affiliates, in larger markets, with which to reach
704
Chapter 12 Lessons from thePast for the Future
larger audiences and thus command greater advertiser income at noincrease in production cost-has led to bland programming designed to appeal tothe largest possible audiences and to please cautious advertisers. As long as national advertisers pay, networks are content. Each network tries to be all things to all viewers or listeners, with due regard for attracting the 18-45 year old women consumers most desired by advertisers. Each is extremely wary of innovative programs, preferring to jump on the bandwagon only after someone else has pioneered a successful venture. In this way, program cycles (invention, imitation andspin-offs, decline and-years later-resurrection), develop and are copied. Broader strategies-such as careful scheduling of an entire evening of similar programs to attract and retain a similar audience, or the heavily promoted miniseries-go through similarcycles. 12.3.2 East Coast/West Coast
In their respective heydays, radio (1930s-1940s) and especially television (1950s-1990s) networks repeated the film industry pattern of centralized financial control in New York with productionfacilities in Hollywood. This split has led to many of the same money-versus-creativity conflicts that affected major Hollywood film studios. Networks have more control over their product, since they control the national distribution system, even though many entertainment programs are produced by independent packaging agencies or production houses,partly because of an FCC edict in force from the early 1970sinto the1990s.While New York and Chicago also were major production centers for national programming in radio and early television, since the early 1950sthe Los Angeles area has been the center for almost all production except news, public affairs, and some serials, although actual filming or taping may be done wherever costs are lowest-such as in Canada, some of whose cities look much like those in theU.S. Another similarity with feature motion pictures is found in the fact that, like film, the real profits are to be found in overseas distribution of product and programs. If the costs of a program have been covered domestically (usually on the second or third rerun), thenwhatever is paid by foreign television systems is almost entirely profit to the program owner. The two oldest networks, NBC and CBS, traditionally have been the strongest, After dominating radio, they quickly did the same in television and continuedto do so for a quarter-century. ABC, founded in 1945,was the weakest financially and, until it briefly jumped into first place in themid1970s,was the weakest in programs as well. But by the middle 1980% NBC was far ahead, and ABC once again was bringing up the rear. A few years later, one-time ratings leader CBS was in last place, even falling behind Fox in some time periods. From year to year, it is a horse race, with seasonal wins often decided byfractions of a rating point or a single program.
12.3
. . . with National Program Suppliers
705
For various reasons described in previous chapters, the DuMont network did not survive past 1955, an attempt to establish a fourth network failed in 1967, and Rupert Murdoch’s Fox Television Network (started in 1987) found that its magic path to profitability lay in inexpensively produced programs aimed at teenagers and young adults. The Warner Brothers Network (WB) and United Paramount Network (UPN), founded in 1995, have a long way to go, since few markets have enough channels for them. The 1999 acquisition of CBS by Viacom, which already owned UPN, probably will affect this situation. Public television networks are discussed below. Commercial radio networks were almost moribund after television became a national medium, existing only for the news and an occasional special program. NPR is discussed on pp. 710-714. The organization of a company often made a difference. For example, CBS usually could move faster than NBC in matters such as the “talent raids” in the late 1940s because broadcasting was thekeystone of its business, whereasNBC was only asmall part of huge RCA. (Now thatNBC is part of even larger General Electric, this situation may have gotten worse.) On the other hand, a talented program chief could make a big difference: Fred Silverman brought ABC from behind to parity in the 1970s (only tofail dismally when helater took over NBC’s programming); but innovative programs modeled on his experience with theMTM production house helpedGrant Tinker when hemoved NBC into the number one spot in the mid-1980s. A few other network programmers, such as Brandon Tartikoff of NBC (1980-1991), or in production studios, such as Grant Tinker, Aaron Spelling, Steven Bochco, and David E. Kelley, may occasionally have copied from themselves, but were noted both fororiginal and creative writing and the ability to juggle more than one program at a time.
-
12.3.3 OwningNetworks
Until 1985-1986, network ownership remained remarkably stable, despite a few changes around the margins, such as Mutual changing hands more than once, NBC radio being forced to divest itself of the Blue Network (which became ABC) in 1943, and ABC’s merger with Paramount in 1953 (see pp. 288, 290). But then, encouraged by FCC deregulation, liberalized limits on station ownership, Wall Street’s realization of broadcasting’s profit potential, the death or retirement of many longtime network executives, and thefrenzied national climate of merger and acquisition, all three networks changed hands in less than two years-and then later changed again. Although network rivalry remained, leadership and corporate goals had shifted. Capital Cities, a very successful and hardnosed group station owner, bought and merged with ABC in 1985. ABC became the “Mickey Mouse”
706
Chapter 12 Lessons from thePast for the Future
network in 1996 when Disney purchased Cap Cities/ABC. RCA (and, hence, its subsidiary, NBC) was purchased by General Electric in 1986, bringing the story of RCA full circle (see p. 57). The NBC radio network was sold, andNBC television is now but a small and insecure part of behemoth GE. CBS technically remained independent for a time but, partly because of William Paley’s inability to find a successor to whom he was willing to entrust hislegacy. (CBS had been known as “Bill Paley’s candy store.”) But in 1986, it fell under the financial and operational control of Laurence Tisch, the chairmanof Loews Inc., a major corporation with entertainment and hotel interests. CBS has since been sold twice, first to Westinghouse (which spun off its manufacturing business and adopted the CBS name) and thenagain, in 1999,to Viacom, a former CBS syndicator now controlled by movie theater (andUPN, MTV, Blockbuster Video, and other firms) owner Sumner Redstone. Layoffs, sell-offs, and other belt-tightening measures showed that the new owners considered networks to be businesses like any others-requiring that the “bottom line” be served. Ownership of television broadcasting networks is important partly because there are so few of them. There are a host of regulatory, technological, and economic reasons for the limited number. Few markets have four or more commercial channels assigned, putting the fourth-place network (usually Fox) in a position of playing endless “catch-up.” Any fourth (let alone fifth or sixth) network has a much smaller potential national audience than the three major chains, since these channels frequently are on UHF with less range and coverage than their VHF competitors. Although the networks often are blamed for encouraging scarcity of competition, national policy has long reflected the need to keep potential interference low in order to avoid irritating viewers of existing stations. Since the original networks had the foresight to build or buy stations in the largest markets (see pp. 286-290), this reasonable policy has been a source of economic benefit to them. While networks as such rarely made much profit until the 1970s, the handful of network-owned-and-operatedstations in large cities always were extremely profitable.
-
12.3.4 OperatingNetworks
Because the Communications Act of 1934 does not provide for direct FCC network regulation, they have been regulated through their affiliated stations. Well into the 1970s’ a network could control its affiliates’ programming through a one-sided contract giving the network a first option on much of the station’s time. Officially, contracts were renewed annually, but in fact they recognized what could be a lifetime relationship. Although in the early 1940s the FCC had limited mandatory radio option time and two decades later eliminated television option time (and promulgated the Prime
12.3
. . . with National Program Suppliers
707
Time Access Rule in the 1970s)”networks remained the stronger partner in the network-stationmarriage. In the beginning, few stations ever switched networks.If a markethad too few channels, a less desirable network might have to accept secondary status. However, when ABC became a strong competitor, several stations did switch from one of the then-weaker other networks. This precedent of “disloyalty” led to less permanent affiliations, as did the fact that a group owner might have stationsaffiliated with two or three networks and thus be familiar with their strengths and weaknesses. Although manyobject to the concentration of national programming in so few hands, itmay also be argued that the networks are the onlyinstitutions-other than a tiny handful of newspapers, the Associated Press news wire service, and CNNthat have the fiscal strength to support national and international newsgatheringoperations.Andeventhese few news servicesoftenhave cost-saving exchange or cooperative arrangements with other media organizations. Until the early 1950s radio and later, television networks, acted almost as common carriers, distributing programs produced or controlled by advertising agencies and often having only a limited say in program content or scheduling. Although this was acomfortable relationship during radio network days, the networks had to take over the programming function when rising television costs made developing and producing programs too risky for individual advertisers or even large advertising agencies. The pace of this trend quickened as escalating costs led to a drop in sole sponsorship, and the development of alternate or multiple sponsorship led to an even greater loss of advertiser control. Eventually, the networks found it cheaper to farm out most program production to packagers and production houses, notably West Coast movie studios suffering from a decline in feature film attendance that was partly caused by television. A 1970 FCC rule made this divisionof function official, restricting the networks’ right to produce most of their prime-time programs-and limiting their abilityto benefit from after-network-run syndication income. In 2000, in its deregulation frenzy, the FCC repealed its rule prohibiting networks from owning programming they air in prime time. As a result, 1 3 of 18 new programs scheduled to appear on the top four networks were owned by the network, and producers like 20th Century-Fox and Warner Brothers were responsible for 37 shows on the six commercial networks. The exception throughoutthis period was network news and public affairs programs. For prestige (and supervision of content for fear of libel suits), the networks themselves had always controlled news. By World War 11, network radio news had become a major means of informing the public. Television news, starting as little more than a newsreel introduced by a talking head, quickly became the most used and believed national news mediumand still is,although audiences have dwindled.
708
Chapter 12 Lessons from the Past for the Future
-
12.3.5 Cable Networks
By the early 1980s, a newtype of national program distribution affected the viewing of many Americans. Cable, no longer content to be a mere carrier of on-the-air stations that could not be received in remote areas, started of cable-only program services. Among the first selling a second tier television’s (June 1980)and most important was Cable News Network (CNN), first all-news network. Started by Ted Turner, whose independent Atlanta “superstation” WTBS already was amajor source of cable sports andmovie programming, CNN soon evolved into two channels that “news junkies” and those who need to know will turn to, even though it lacks any local news. During national or international crises, CNN often replaces the television networks as the place to view-but during quiet times, its audience drops off, some turning to competitors such as MSNBC, a joint project
Satellites Extend the Reach Echostar VI, launched in 2000, is one o f several direct-to-home or DBS satellites serving theU.S.market. Such domestic communication satellites are known for their large square panelsof solar batteries that stretch for yards, as well as smaller receiving and sending antenna dishes. The core electronics that allow multiple videoor audio signalsto be stored and retransmitted are in the center.
a
12.3
. . . with National Program Suppliers
709
of Microsoft and NBC. Turner later became part of Time Warner (now AOL/Time Warner). He no longer runs CNN and has been eased out of AOL/Time Warner. Radio developed its own specialized networks, some temporary (to carry a certain sporting event), and some permanent, such as NPR and the Bloomberg financial news network. Entertainment cable services, epitomized by Home Box Office, which supplies uncut and uninterrupted feature films in exchange for a monthly subscription fee, soon followed. Roughly half of those with cable subscribed to this second (or third) tier of pay-cable programming. All transmit by satellite to cable system head ends and, until suppliers started to scramble their satellite signals, unintentionally to viewers who had installed satellite receiving dish antennasin their yards in order to tune in for free.A fourth tier developed in the 1980s-pay-per-view (PPV) movie (or sporting event, such as a championship boxing match) services making it easy to indulge in impulse viewing. Larger cablesystems often provided several such channels, as well as aneven larger number of home shoppingchannels. A particularly significant development has been the growth of multiple system operators (MSOs) at least one of which (AT&T)is right up againstor beyond-the original cap on proportion of the population (30%) it is allowed to serve. The top 20 MSOs serve all but a tiny fraction of U.S. homes, and the proportions are even more extreme in countries such as Canada. The growth of cable, and of DBS, has led each distribution method-cable, DBS, and on-air broadcast-to feel beleaguered and friendless. The larger one of these organizations becomes, the morelikely it is thatfurther acquisitions (here and abroad) will be questioned by agencies such as the FCC, the FTC, and the Justice Department-which has already won court cases breaking AT&T into several parts (some of which already have merged back together), and may break software giant Microsoft into two, each of which will be among the world’s largest corporations, The AOL/Time Warner merger was held up by governmental anti-trust questions. European common market regulatory authorities have also gotten involved. 12.3.6 Public Broadcasting Networks
I
Although often overlooked by commercial broadcasters, there is another major network: PBS (Public Broadcasting Service). In most markets, the FCC in the early 1950s reserved approximately a fourth of all channels for noncommercial educational television. Almost all of these channels are now occupied by stations,and most are affiliatedwith PBS, which supplies programs in a manner roughly similar to the way theother networks operate. For many years decisions on which programs would be produced-by stations or independent producers, not PBS or CPB-or purchased were made by the stations through a complicated bidding-commitment procedure madenecessary by thefact that federal funding is suppliedto stations
710
Chapter 1 2 Lessons from the Past for the Future
and not to PBS or CPB. Recently PBS was given more power to fund program production which, in 2001, PBS President Pat Mitchell used to diversify sources of programs and reduce dependence onBritish programs in the hope their replacements would appeal to a younger audience. It is unclear whether such a course of action will be feasible. In public radio, as in commercial radio, the networks are of limited importance, with only about one-sixth of noncommercial FM stations being affiliated with NPR [National Public Radio). Nevertheless, some NPR news and public affairs programs, and even entertainment programs from NPR or Public Radio International (PRI, originally American Public Radio, a group of stations organized byMinnesota Public Radio, which does not have the overhead or some of the governmental restrictions of NPR)-have large, loyal audiences. 12.3.7 Current Statusand What May beNext
cmsmsm
Although the networks are the obvious target for critics of any of broadcasting’s real or imagined shortcomings, and networks themselves are prone to complain at the slightest interference in their activities, they (and their owned-and-operated stations) have done extremely well financially,which is one reason why they are now being bought and sold. But not everything has gone their way. They lost one tenth of their income-perhaps $200 million in early-1970s dollars-when cigarette advertising was banned; citizens’ group pressures reduced the income from children’s programs; the Prime Time Access Rule forcedthem to return some prime time inventory to their affiliates; and new program delivery competition from cable, VCRs, PBSand later the Internet made substantial inroads on their prime time audiences; election campaign reforms reduced election time revenues; and costs of acquiring sports events such as the Olympic Games and covering major news events kept rising. For many years, they were greatly restricted in their ownership of programs, including a ban onsyndicating them in the United States. These conditions led to serious dwindling of the networks’ share of the total audience. The public still watched ever-more television-but it now was seeing programs over cable, DBS or VCRs. Indeed, the networks themselves-after decades of terrestrial linking through telephone lines and coaxial cable-turned the bulk of the job over tocommunication satellites in the mid-1980s. In decades to come, while the network names may continue, the Internet might be used todistribute television programs. Yet, because of population growth, the profits of their 0 & 0 stations, and their relationships with creative talent, the traditional networks continue to profit, and the symbiotic relationship between network and affiliated station has proven to have more merits than demerits for all concernedalthough relationships have become increasingly acrimonious. Since the program purchase-scheduling-delivery functions remain essential to the electronic mass media today as in the 1920% the networks probably will continue in the businessof efficiently sharing expensive middle-of-the-road
12.4 The PublicBroadcastingAlternative
711
programs across the nation-although a minority think that specialized cable services or even the Internet will eliminate the need for common denominator programming. Stay tuned. One relatively unexamined factor is the possibility of synergy-the whole being greater than the sumof its parts-resulting from the increasing concentration of ownership. The top 25 group owners controlled nearly 40% of some 1,200 commercial television stations in 1999, up from only 25% in 1996. Multiple system owners in the cable industry are even more concentrated (see Appendix C, table 9-01. It isn’timprobable that these entities will think about going into the program production business themselves, which would put even more pressure on the traditional networks. Whether such vertical integration would pass muster with the FTC or the Justice Department’s antitrust division will depend onthe politics of the time.
12.4 The Public Broadcasting Alternative The development of educational-later public-radio and television took place despite limited public knowledge or support, indifference, and even hostility of commercial broadcasters, regulatory caution based on political concerns, and theoverriding and interrelated questions of what precisely is the mission of such a system and its financial support-and consequent probable control of content.
-
12.4.1 What’s It For?
Central during decades of public broadcasting is the continuing lack of agreement on what it isexpected to do for its audience. From the start, radio broadcasting was held up as agreat potential educational force, as was television in its turn. Such a platitude hascurrency, particularly as definitions of education have broadened-from the classroom to a variety of cultural activities and interests. But when thenarrow educational role became less appealing, public broadcasting faced a host of questions. Should itbe an alternative to commercial radio and television? A chancefor education in the home or expansion of adult education programs at the college level? An adjunct to in-class instruction? Ageneral cultural service? A locally oriented service or a national one? Controlled by the community, the educational establishment, or by counterculture organizations? Should it emphasize opportunities for minority interests? Should it be another national network in competition with existing commercial nets? All of these questions remain active, and theconfusion over the mission of American public service broadcasting has been reflected in the names appliedto it: instructional, educational, and public-or cultural, community, and alternative. This vagueness of national purpose and consequent dearth of financial capitalization have intimidated and frustrated generations of leadership in ’
712
Chapter 12 Lessons from thePast for theFuture
public broadcasting, and provided feed forcritics. From the beginning, educators have too often failed to grasp opportunities, frequently set their sights too low, and have been subservient to those in government and elsewhere who might have been good allies but turned out to be less helpful as masters. In Great Britain and many other countries, the publicly controlled broadcasting system was established as an instrument of national policy long before commercial broadcasting-which became dominant, but not overwhelmingly so-was allowed. In the United States, commercial broadcasting began first and remainsprimary while educational broadcasting has had to subsist on crumbs. This was self-defeating because there never was enough money to produce programming and promotion that could build general public support. 12.4.2 Growth
R*llilQ
Approximately 200 noncommercial AM radio stations in the 1920s shrank to a couple of dozen by the late 1930s.Apparently once the glamour of the new medium wore off, fiscal caution and the apprehension of classroom teachers who feared for their jobs were sufficient (especially in the Depression) to choke off funds neededto upgrade facilities to FRC standards and continue operating. During the 1930s and 1940s,a few educational broadcasters kept alive the dream of regaining access to broadcast channels in every community. Commercial broadcasters were using most of the AM channels previously and briefly occupied by the educators and, in spite of commercial broadcasters’ assurance to Congress that adequate time for educational programming would be provided, fulfillment of the dream had to wait until educators won reservations on FM channels in 1940 and on television in 1952.These set-aside channels, whichwere the latter-day fruition of an unsuccessful attempt to secure them in the Communications Act of 1934,provided the stimulus that eventually led to morethan 300 noncommercial television stations and more than 1,400 noncommercial FM radio of noncommercial FM and televisionstations stations.Thenumber (including those operated by religious groups) has approximated a fourth of all FM and television outlets for decades, and their audiences have grown to the point where programs often show up well in the ratings and are listened to or viewed at least occasionally by themajority of Americans. Still confused about its purposes, educational broadcasting slowly grew out of the demonstration stage although equipment manufacturers may have benefited more than students or the general public. But the continuing lack of agreement on comrnon goals led to a corresponding lack of public concern. As a result, political and economic pressure was never adequately mobilized to support ETV/PTV and theresulting lack of money was a symptom morethan a cause of its malaise. For, despite all the rhetoric, ETV has seldom attempted to be more than a limited alternative to
12.4 The Public BroadcastingAlternative
713
commercial entertainment. Its programs tend to appeal to a well-educated minority or, as its critics would say, an elite. Onlywith occasional moviesor high-quality drama,much of the latter from Britain, some music (typically featuring popular semi-classical artists, such as tenors from Italy and Ireland), comedy, and satire, and some children’sand “how to” programs, have public television stations been able to garner substantial audiences. Both listeners and contributors have continued to come largely from a narrow spectrum of society. One can argue that these are the decision makers and movers, but thisgroup already is well served by other media. Public broadcasting, as created by congressional action in 1967, is just barely a medium for the general public, although more and more programming is aimed lower in order to address political and fiscal pressures. 12.4.3 Seeking Funds
1111111
Largely because of its fuzzy sense of mission, public broadcasting remains hampered by restricted funding, lack of a consistent long-range funding plan, andpolitical influence on decision making. Members of Congress and other politicians object to tax monies going to independent programming supporting various political and social views they may not favor themselves. Accordingly, for decades noncommercial educational radio stations were legally prevented from editorializing or endorsing political candidates, and local pressure frequently was even more severe, It is significant that many years passed before an educational broadcaster challenged the constitutionality of this situation. A few municipalities, school districts, and universities had provided minimal support for educational broadcasting each year until the late 1950s,when such outsideagencies as theFord Foundation offered help. In 1967 the Carnegie foundation’s report proposed a new name, “publictelevision,” and a new vision and generated enough pressure on Congress for the government to establish the Corporation for Public Broadcasting, with some tax support for equipment andprogramming. Educational broadcasters, willing to do almost anything for money,have discovered that “he who pays the piper calls the tune.”They alsohave found that a promise to fund isnot proof of money forthcoming. More than three decades after the first Carnegie Commissionreport, and two after the second, a true long-range funding plan isolated from short-term political pressures is still only a dream. Proposals for “dedicated” funding from excise taxes on receiver or station sales remain unlikely in the face of industry pressure and political ideology. Internal dissension is rampant. Public television often is called elitist, yet its role of providing programming not generally supplied by commercial television is recognized-and some of it is very good. Cautious governing boards of local public television stations are at loggerheads with the alphabet soup of national organizations. Government
714
Chapter 1 2 Lessons from the Past for the Future
remains arnbivalent-and no recent president seems to have wanted another effective network to parry and has ensured this condition by directing the dribble of federal funding to local rather than national organizations. Finally, public television’s limited success in attracting underwriting funds from commercial firms has alienated many commercial stationswhich now view it as competition to be fought rather than as a public service to be supported. After federal funding was reduced in the 1980s, public television stations were allowed to give “underwriting” and later “enhanced underwriting” credits, virtually indistinguishable from commercials, to firms that contributed to a program’s production costs-and as a result were strongly attacked both by commercial stations and by those who appreciated receiving programming without commercial interruptions. 12.4.4
A Few Predictions
The long-term future of public broadcasting is unclear. With the support of tax and foundation money, there is little danger that it will blowaway. But without that support, and with fewer and fewer apparent differences between public and commercial television programming, even the minority
m
Decades on Sesame Street
By the beginning
of the new century,
Sesame Street had contributed to children’s developmentfor more than three
decades overPBS, a remarkable record.
Photofest.
12.5 Dollars and Sense
715
that now supports public broadcasting may turn away, removing the last stimulus for governmental fiscal support. Not only are there a number of cable networks-A&E, B r a v o t h a t carry many of the same programs as PBS, but there also are several-the Discovery Channel, C-SPAN-that carry in their entirety important hearings, political conventions, and the like. Finally, such public affairs programming annoys the many who would rather be viewing the originally scheduled entertainment programs, on PBS or the commercial networks. The immediatefuture appears to hold few programswith the wide public appeal of Sesame Street or some Masterpiece Theatre offerings, more bickering over a limited h a n c i a l pie, a growing struggle with cable television operators who have little interest in carrying PBS stations, and continued infighting among competing organizations. When those in public broadcasting can confidently sell a substantial portion of the general public on clearly defined goals and aims, receive support with fewer strings attached, and stop the nearly constant internal and political bickering, then this service may become more than a stepchild to commercial radio and television. But at the start of the 21st century there are no guarantees that any of this will happen. Stay tuned.
12.5 Dollars and Sense
Rssam
Despite initial attempts to find other means of financing broadcasting, a strong debate over the propriety of broadcast advertising in the mid-l930s, and concern over many aspects of it since, advertising has been the chief support of American broadcasting since the late 1920s. In turn, radio and then television have become major advertising media. Advertising’s dominant role has affected programcontent and production, widened thedifferences between the haves and have-nots, and helpedestablish different roles for today’sradio and television. 12.5.1 Programs as Bait
111111.
Because most broadcasting is advertising supported, programs are only a means to an end: attracting consumer audiences to sell to advertisers. (When an advertiser buys “time” or “space,” these are merely the historic units of measure for adverting sales purposes.) Programs becomebait to gather audiences, which networks, stations, and, to a lesser extent, cable systems then sell to advertisers. Thus themajority of programs tend to be mass entertainment, withinformation (news and public affairs) receivingjust enough time to ensure a good public image, or cheapened to popular gossip- and scandalmongering content. Mass appeal programs generally are bland and politically neutral, aiming to offend as few while entertaining as many as possible. Program content appeals to a low common denominator so that the largest number can enjoy it-and attend to the increasing number of supporting
716
Chapter 12 Lessons from the Past for the Future
commercials. To the advertiser, so long as the “cost per thousand” remains the same and the audience’s demographicmix is desirable, it does not matter if the message appears in the form of a 30-second spot or an “informational” underwriting identification on supposedly “noncommercial” PBS.
-
Origins
12.5.3
Advertising
12.5.2
In theUnited States, following the initial sale of commercial time in 1922, the rush to adopt this method of financing soon carried all before it. Other possible approaches for securing operating income had been suggested: annual license fees on receivers (as levied in Great Britain and elsewhere); general tax revenues (which support a few municipal and university stations today); special taxes; annual subscriptions (currently received by many PTV and some public radio stations); donations (received by public or religious broadcasters); operation of stations as auxiliary enterprises by receiver manufacturers and retailers; or combinations of these. All of these were and remain far less common than commercial sponsorship, both here and abroad. A few stations have been supported outof the pockets of an individual or firm for altruistic, political, religious, or public relations reasons, or to save on federal taxes, since one can reduce one’s taxes by losing money supportingan unprofitable business. But by 1928 radio had become a mass advertising medium, and through the 1940s the larger advertising agencies controlled radio network programming. On the other hand, the high (and rising) costs of producing television programs turned off advertising agencies, so the networks had to take over this function themselves when television burgeoned in the late 1940s. Until the late 1950s, when the quiz show scandals forced networks to supervise programming more strictly to protect their affiliated stations from FCC sanctions, advertisers still could easily veto the content of most sponsored programs. At the same time, the cost of sponsoring an entire program had risen beyond thecapacity of most corporate sponsors.
As a result, broadcasting slowly adopted a modified “magazine concept,” which allowed advertisers to buy national or local spots within programs and allowed advertiser support without complete advertiser control. This system has shaped most of today’s American electronic media-even the Internet. Most national television advertising goes to the networks and larger stations (and, to a lesser extent, cable networks)partly because of the convenience to the advertiser of using only one large outlet instead of many smaller ones. Local advertisers, unable to afford the prices charged national ones, must use smaller and less efficient independent stations or fringe time on larger ones. Independent stations, often on less desirable UHF channels, must handle the
12.5 Dollars and Sense
717
same large and fixed operating costs on thesmaller amounts of money generated by local ads, and hence often are willing to “break” their published rates or arrange barter deals in order to have enough income flow to pay their bills. Most radio stations must scramble even harder. Competition between radio and television for advertising is restricted by the interaction of advertisers’ desires for efficiency,the demise of radio networks that forced radio to become a local advertising medium, andtechnological factors that limit the number of networks and make most smaller stations inherently and permanentlyinferior as advertising media. Once a new mediumor approach-FM, UHF television, cable, pay-TV, home video recording-has won a long, expensive struggle to get public, government, or industry support or approval-such as, for example, the 1962 all-channel receiver bill that helpedUHF-the battle has just begun. Now it must start the marketing fight against those stations or other institutions that hold an economic advantage. 12.5.4 Direct Payment
llwlllll
Cable television has discovered that large potential profit is to be gained from a form of subscription (payment by the month for unlimited use of “basic” advertiser-supported programming), added to shared income from pay-TV, and from direct “pay-per-view” programming-the last two without advertiser support. If basic subscription fees paid out-of-pocket costs, much of the rest was pure profit, and some early operators and multiplesystem operators (MSOs) stayed in thebusiness because they could invest the large and regular cash flow and because of the enormous capital gains that could be made when they sold the system. This was largely a function of the tax laws, which allowed deductions for financing as well as operating expenses and levied low-rate capital gains taxes on profits from the sale. go through the same process. Then the new owner would However, this changed in the late 1970s, when the first “cable only” programming, such as current feature films on HBO, was distributed by satellite to local systems. Suddenly therewas an opportunity for the system operator to profit every month by sharing in an extra monthly fee charged the subscriber. Since much of the wiring was already in place, pay-cable was a money-maker for cable operators from its inception. By 1987, the magic “half of American homes subscribe to cable” figure had been reached. Of those, about half also tookone or more “tiers” of pay-cable. As the proportion of those using cable (basic and pay) grew, the average income per subscriber per month climbed rapidly, from$5 or less to $30, $40, or more formany cable systems.The larger audiences attracted an increasing amount of local and national spot advertising to the cable system for additional revenue. However, it took a long time for many large cities to get cable, for economic, political, or technological reasons-costs of wiring a large city
718
Chapter 12 Lessons from thePast for the Future
are high, as are public expectations of quality, since urban audiences already are well served by on-the-air broadcasting. Televisionmanufacturers touted “cable ready” tuning, and TV Guide successfullyfought potential competition by covering cable aswell as broadcast television in its pages. The public still watched television-but now it was seeing most network or non-network shows on cable or by pickup from a rooftop satellite receiving dish.
-
12.5.5 Specialization
While most national advertisers still find television to be the medium of choice (matching newspapers’ share), the “pie” of their expenditures now has to be cut in ever-smaller wedges. Viewers with up to 100 advertisingsupported cable channels to choose from are harder for advertisers to reach than viewers with only three or four on-air network affiliates. The growth of advertising-free (pay)cable, PBS, and rented cassettes amongthose competing for the viewer’s attention makes the advertising agency’s job more difficult. The old concept that a television station license was a license to print money is obsolete, even though the high price tags on stations and cable networks indicate that they still are considered extremely valuable properties. The money is still there, but it has to be earned rather than “picked up off the ground.” 12.5.6 Other Income Sources
All companies are constantly on the lookout for additional ways of making money. The proportions of advertising and subscription (by the month) income will vary, depending oncompetition and public acceptance. For example, advertising has been the mainstay for commercial television, but has been far less effective on the Internet or in motion picture theaters. Public broadcasting has found some funding in the promotion of tours and seminars, as commercial radio has benefited from rock concert promotions. The cable industry relies on monthly subscriptions for the most part, as do many print media. The sale of books, tee-shirts, records, and similar merchandise (although sometimes disguised as “premiums,”or gifts provided in recognition of donations) is common, some network programs have merchandising tie-ins ready by the time the first episode is aired, and the sale of products over television may, some day, result in income for stations other than those labeled as “home shopping” outlets as is thecase in theU.K.
-
12.5.7 A Few Predictions
While many think “convergence” refers only to technologies, it also applies to industries. Although the go-go years of conglomerates controlling a host of unrelated industries seem to have passed, the combination of
12.6 Programming:AnExpandingMenu
719
ambition-some would say greed-and governmental and public acceptance of the ideology of deregulation and unrestricted growth is leading to fewer and fewer entities controlling ever-larger portions of any given medium or industry-and a consequent shrinkage in the number of independent entities. This has proven true in banking, airlines, automobile manufacture, petroleum, drug stores, and a myriad of other industries. In communication fields as different as personal computer operating systems and newspapers, it has become extraordinarily difficult to establish new firms or preserve smaller and older ones. The product of huge mergers of a few years ago (like Time Warnerand Turner) is suddenly absorbed by another communications entity (AOL) that is looking to expand in a related area. Many business leaders believe that the only alternatives are growth or death. The Congress’s removal of most restrictions on broadcast station ownership soon led to hundreds of stations being controlled by one comhundreds of newspapers and pany. One company-Gannett-controls only a handful of cities now have competing papers. One firm owns more than 1,200 radio stations. Cable, supposedly an industry with thousands of “mom & pop” companies, actually is headingtoward oligopoly-the top 25 companies serve more than 90% of American homes; the top 5 serve approximately two-thirds. A cartoon shows three fish of varying size. The smallest one, about to be gobbled up by the middleone says: “The world is unjust.’’ The middleone, about to gobble the smallest one, but about to be eaten in turnby the largest fish, says: “The world can be just.” The largest one has no doubts: “The world is just.” What effects will this concentration of control have on the American public? It can be argued that, in A. J. Liebling’s words, “Freedom of the press is guaranteed only to those who own one.”*And it also can be argued that the ultimate result of unregulated competition in a given industry is likely to be monopoly-with consequent monopoly pricing and reduction in service. Broadcasting isn’t at that point yet, but itwill require much public vigilance to avoid a situation where our sources of news, as well as entertainment, are restricted to a handful of kieretsu. Stay tuned.
12.6 Programming:An Expanding Menu
mF%wa
Programs resulting from increased competition are neither as badas some critics say (typically, they decry tendencies toward consensus, timidity, and the lowest common denominator approach) nor as good as some idealogues touting the virtues of competition and diversity would have us believe. Some of the awards hanging on the “Ilove me” walls of stations *Liebling, A.J. The Press. New York: Ballantine, 1961.p. 30. (Originally published in The New Yorker,May 14,1960.)
720 Chapter
12 Lessons from the Past for the Future
are well-deserved, although othersmay be a substitute for a feeling of real is reflected accomplishment in the public interest. This ambivalence TV Guide’s 2000 list of “100 most memorable moments in TV history”: the two highest ranked “moments”were astronaut Neil Armstrong’s first walk on the moon in 1969-and Lucille Ball’s “Lucy in the Candy Factory’’ episode of 1952. 12.6.1 Unoriginality
1111
...
Most programs are “more of the same,” producedas inexpensively as practicable. Even such highly profitable programs as 60 Minutes keep a close eye on costs, and their many imitators and clones may be on even tighter on what hasbeen budgets. Something touted as “new” is usuallyvariation a done before or merely a gimmick or something to titillate the audience rather than acarefully crafted artistic advance. Since audiences are sold to advertisers, programs continue to serve as the lure usedto attract viewers. Hence, programs mostly-in addition to a little congressional and public pressure-reflect demands from advertisers that, in turn,reflect varied audience preferences and the profit interests of owners and managers. From these has come program standardization and a cyclical, largely imitative, development of program types and themes. The needs of networks as well as the constraints imposed by early recording media led to standardized program lengths, generally in 15-minute increments. Radio of the early 1920s and after 1960 has been more free-form. Program formats usually are defined by the need to insert a certain number of commercials at exact times, often determined by computer or previously distributed schedule. If the particular “availability” has not been sold, the network may insert an unpaid program promotion or public service announcement so that the schedule is maintained-and the public is further conditioned to expect program interruptions. Even PBS programsoriginally produced abroad without the straitjacket of commercial scheduling generally adhere to this pattern, with regular climaxes written into scripts to motivate audience viewing during and beyond the commercial interruption. Successful early programs led to standardization of program types. Musical, variety, drama, comedy, sports, and game formats all were common by the late 1930s, and most programs since then are but modification and adaptation, and still are aimed atwomen from 18 to 45, who determine most consumer purchases. For many reasons, there has been little real program experimentation. First, with few exceptions, radio hashad a shortageof real talent and new ideas. Vaudeville performers were shockedto see routines that might have pleased stage audiences for a lifetime gobbled up by radio’s national listenership in days or weeks. Television’s appetite for content, especially with 18- to 24-hour programming days, is prodigious, forcing mass production
12.6 Programming:AnExpandingMenu
721
of proven formats. Second, few advertisers wish to risk supporting nonconventional programs, since the stakes are so high. They generally must appeal to the largest possible audience without antagonizing parts of it. Third, costs and thusrisks are always rising. Radio programsseemed cheap to produce; even television of the late 1940s rarely cost more than a few thousand dollars a week for a network show. But by the 1990s an hour of dramatic prime time programming might cost a million dollars before it could be sent to the home screen. A consequence of high cost is reduction in number of shows created for a season from 39 (in network radio’s day) to less than half that number today. Indeed, one of the major reasons for producing new episodes at all is the hope that therewill be enough episodes (nominally 100) to make the show attractive for syndication-and residuals. Thistendency of networks, advertising agencies, and production studios to play it safe with accepted methods and formats explains why most programmers followconventional ideas and copy past successes. Even the most highly creative are urged to copy their own previous successes.
Setting the Entertainment Pattern George Burns and his wife Gracie Allen made up oneof radio’s pioneering comedy teamsin the 1930s just as Milton Berle was the first hot television property in the late 1940s. Both radio and television relied on the widespread appeal of comedy to attract large audiences and grateful advertisers.
B
Culver Pictures.
722
Chapter 12 Lessons from thePast for theFuture
12.6.2
...and Originality
But, every so often, frequently in unsponsored sustaining time, on public television, or in another country or medium, one program or idea that is a bit different from others of its genre becomes popular; less often, a producer will support a program that is substantially different; and once in a while, the gamble pays off. Most recently this happened withvoyeur shows, such as Survivor or 1900 House. A few years ago self-contained miniseries were in vogue, possibly reflecting apparent reductions in audience attention spans. (This latter effect also is evidenced by fast-movingprograms such as Sesame Streetand the practice that rarely allows a network television news story to be more than 90 seconds long.) Music videos crossed the line between promotion and entertainment. In the late 199Os, the newsmagazine and “reality-based” programs from COPS to America’s Funniest Home videos became popular-particularly among network executives who appreciated their low cost. Norman Lear showed that current controversies could be the subject of situation comedies such as the1971-1983 All in the Family. Close copies were soon produced in a process of imitation that continued until audience ratings for that type of program began to decline. By of its cycle. then, anotherprogram format or genre would be on the upswing Generally, it takes from one to four seasons for a program type to run its course, and some types have returned to popularity every “TV generation” of 10-15 years. By this token, we may be overdue for returns of the western drama and the comedy-variety fom-but the cycle isn’t that predictable. In 2000, for example, the big-money quiz show returned-although it took longer because of the scandals of the late 1950s. (Indeed, Appendix C tables 4 and 5 show a remarkable similarity between recent network television program types and radio programming of the 1930s and 1940s.) The cautious networks rarely are interested in program ideas from outside that do not fit into a mold developed in their own headquarters. The competitive scheduling of network programs has become an art with the trappings of a science. The programmingchiefs rely not only on rating services but also on the track records of major packagerssuch as “I’M (TheM a y Tyler MooreShow, Rhoda,Hill Street Blues, St. Elsewhere), Lorimar (Dallas, Falcon Crest, Knots Landing, Perfect Strangers, ALF), Warner Brothers/ Court), Desilu (TheLucille Ball Lorimar (GrowingPains, China Beach, Night Show), Tandem (All in the Family, Sanford and Son, The Jefersons),and producers such as Steven Bochco (Hill Street Blues, L.A. Law),David Kelley (The Practice, Ally McBeal),and Aaron Spelling (Charlie’sAngels, Dynasty, Hotel, Fantasy ISland), and a few others. Spin-offs (or rip-offs) fromsuccessful series are preferred by networks to new program ideas from new sources. It is unlikely that this pattern will change until channels are provided to support more than four or five on-air networks or unless new meansof distributing programs are further developed. Those demonstrated in the past include temporary sports networks, first-run syndication of serials (such as
12.6 Programming: An Expanding Menu
723
Baywatch, or Xena, Warrior Princess), miniseries, and occasional dramatic programs distributed over ad hoc networks consisting of both independent and network-affiliated stations. Cable networks tend to seek out inexpensive off-network programsto distribute, leavened with independentproductions and sporting events, although HBO, A&E,and a handful of other cable channels regularly (but not often) produce special programming of their own. It is possible to “milk” or extend the life of a program or format by making cast changes, going from a serial format to a story-contained-in-oneepisode approach,or emphasizing some aspect of the program (such assex and violence) until it is virtuallya parody of itself. But some of the best program series-including M*A*S*H, Hill Street Blues, Seinfeld, and theMary l’yler Moore Show-decided to retire voluntarily while still popular, often wrapping up many of the loose ends in their story lines in thefinal show. Of course, these programs had produced enough episodes to be profitable in later syndication, andsome of the talent wouldreceive large residual payments for the rest of their lives. 12.6.3 Tactics
It has been said that there are only a dozen or so major literary plots, and television and radio drama have reused them so often that they have become nearly as conventionalized-with stock characters, pacing, and plot-as the lengths or genres of the programs themselves. Most avid television watchers can predict the outcome of a program or subliminally know when the plotis building in suspense and interest toward a commercial interruption. The staples of genre, plot and attractive performers, are always in the wings, ready to reappear. This familiarity becomes a comfort to persons who use television for companionship. Even those who turn to television for more than relaxation and entertainment are unwilling to do so all the time. Hence, the very sameness of broadcasting seems to be one of its greatest strengths. Rather than respondingto presumed or possible audience needs, electronic media tend to cater to the public’s desires, which are reduced to the limited choice of programming aired. Since much of the audience finds change uncomfortable and stability welcome, broadcasters and advertisers use these attitudesto establish continuing audiencepreferences and habits. About the only change is in theamount of information that today’s audience seems to be able to absorb. The 20-second spots of today, with improvements in message construction and production, seem to be as effective as their l-minute forbears of three or more decades ago. Locally produced programs are rare, in spite of the efforts of organizations like the National Association of Television Program Executives and the overseas examples of cooperative program exchanges. Local formats for both radio and television rarely could compete with networks except by copying them. A half dozen of today’s radio formats have no metwork counterparts
724
Chapter 12 Lessons from the Past for the Future
Network Hegemony For television’s first four decades,thelargernetworks dominated broadcast news. Each evening millions would tune to CBS (see Walter Cronkite on p. 445) or NBC. Chet Huntley [left] from New York and David Brinkley [right] from Washington eo-anchored the NBC evening news from the late 1950s into the 1970s.They are shown at the1956 Democratic convention. Later network anchors are shown on p. 541. Network and local station newscasts helped to spell the end of the evening newspaper-just as CNN and the Internet would drastically diminish the traditional network news role by the late 1990s.
a
Photo courtesy National Broadcasting Company.
since radio networks no longer provide large amounts of programming-but do have a similarity from market to market that cannot be blamed solely on the success of program consultants. In television, the term “local origination” generally is a misnomer. It really means nationally syndicated programs (particularly game shows like Jeopardy or Wheel of Fortune or, sometimes, “soft” or feature “magazine” news programs and a whole judiciary system of syndicated “judge” programs) or feature films shown withlocal commercials. 12.6.4
The Importance of News
The chief exception to this are news programs. Not only do some broadcasters still believe that the FCC and Congress look with favor on programming news and public affairs as being “in the public interest,’’ a sizable minority of the public feels a need to be well informed on local matters-a need not
12.6 Programming: An ExpandingMenu
725
satisfied by the networks or CNN. The proportion of Americans who read newspapers is steadily dropping, leaving the electronic media as the only game in town. Therefore, local broadcast news also supplies a major share of local spot revenues-more so now that most of the networks are sharing the costs of stock footage of breaking news events and are the primary supporters of the Voter News Service on election night. Indeed, evidence suggests that a strong early evening local news program will lead its audience to that station’s evening prime time programming as well. In other words, money spent on the 6 o’clock local news program will pay off by helping “win” audience ratings for the entire evening. But even here the approach is standardized-with radio’s “rip ‘n’ read” superficiality torn from the AP wires, and television newscasts virtually indistinguishable from one another except for their highly paid blow-dried anchors andgimmicks suggested by consultants, such as “happy talk” interaction among onair presenters. Replacement of a news anchor by a network occasions considerable nervousness (and coverage byother media)--and as this book goes to press, that hasn’t happened for two decades-since Dan Rather moved into Walter Cronkite’s chair at CBS in 1981. The last few holdovers from World War 11 radio network commentary days have died-Bob Trout staying in harness until his death in November 2000 at the age of 91-and the expression of opinion scares those in the executive suites, so today caution and objectivity are rigorously maintained. Although more women are seen ontelevision newscasts, with Barbara Walters’s salary reaching the same stratospheric level of many male network anchors, and women have occupied a large proportion of producer and other behind-the-scenes positions for many years, it wasn’t until the late 1980s that a woman was to be seen doing NFL play-by-play. If presented at all, editorialsare bland; limits on time and cost restrict what might be aired on evening newscasts; and negative reactions to infrequent controversial documentaries has made it harder to get them on the air. Success beyond the conventional newscast is possible, although rare. An example is CBS’s 60 Minutes’s long stay in thelist of top 10 programs in terms of ratings, and ABC’s unexpected success with Nightline starting in 198Oboth of which show that news can attract audiences and advertiser support, which, of course, has made news operations subject to the same economic demands as entertainment programming-and even greater fear that the Internet will continue to syphon viewers from network news. These economic demands and fears have led to much less coverage of national politics (see Appendix C, table 5-G)and far more to exciting but superficial novelty, sex, and violence titillation and scandal, The journalist’s public watchdog function has been submerged under a sea of caution and concern for the bottom line. The meaning of the word “Infotainment” has gone from a condemnation to an objective description. Although the coverage of the recount of the Florida vote in the 2000 presidential election was extensive-perhaps
n Televising Sports Then and Now An NBC television crew broadcasts baseball on TV for the first time during a game between Columbia University and Princeton at New York's Baker Field i n 1939. T w o mobile vans sent the television signal to the transmitter at the Empire State Building for broadcast to the handful of homes equipped with television sets. Six decades later Seattle Mariners' Ken GriffeyJr. is seen through a center field TV camera while standing on first base. Money paid by networks to carry professional sports had transformed the economics of the sports business. ? , " * , ... . i
--.,.,.pr.-.:.
AP Photo/Eric Gay. 726
12.6 Programming: An ExpandingMenu
727
excessive-during the campaign itself many Americans got their political ideas from jokes during the nightly monologues of Jay Len0 and David Letterman. There is some justice to the complaint that the networks spend huge amounts of money for sophisticated hardware and personnel to report news, political events, sporting events such as the Olympics, political assassinations, and other disasters, but spendvery little time or money on interpretations or implications of the news-the in-depth of information a democracy needs in order to reach valid decisions. Foreign correspondents no longer are stationed where the news is being made; they merely “parachute in” with a portable satellite transceiver, even in suchbattlegrounds as Kosovo. Indeed, the once-important documentary has been debasedand confused in the public mind by the networks’ entertainment divisions, which show fictional presentations of (sometimes) real events in “docudramas.” What few public affairs documentaries are aired are to be found on PBS and cable channels such as Discovery, the History Channel, and the Learning Channel. One interesting experiment in 2000 was a joint venture of ABC’s Nightline and PBS’s Frontline: a two-hour special (on Frontline) on the Clinton administration, which may reflect the frustration of traditional news people at the commercial networks’s unwillingness to schedule serious public affairs programming.Superficial biographies and “gee, whiz” tabloid accounts of improbable events, magazine shows, and “reality” are filling the time once used for providing the in-depth knowledge the public needs to make its decisions. After more than six decades we still lack an answer to the question of the proper balance between two legitimate interests: that of industry in profit and that of the public in news andpublic affairs. 12.6.5
llwIl
A Few Predictions
Some-often those wanting a piece of the pie-claim that an increase in number of channels (and thus available programs) will automatically lead to “class” rather than “mass” programs. This idea has been accepted by some groups who believe that their program wants would be better served if there were more outlets. However, just aasmass audience can mean profits for advertiser-supported broadcasting, sheer size also is attractive to electronic media supported by direct subscription or purchase. So, virtually every programmer would prefer a large rather than a class audience, no matter how defined. The nameof the overall industry is broad- not narrowcasting. Will cable, the Internet, pay-TV, videodiscs, videocassettes, DBS, and the like really give us a golden age of program diversity and high quality? Not likely.The evidence we have indicates that it nearly is always more profitable to copycat existing entertainment to attract the most potential buyers at the least per-unit cost. So, although our best sense of the likely future is “more of the same”-stay tuned.
728
Chapter 12 Lessons
from the Past for the Future
All News, All the Time Created in 1980, CNN became the &st stop for news Its coverage of the short but intense Gulf War in 1990-1991 marked junkies by the 1990s. its coming of age as a respected news source, depended upon even by the Pentagon itself. CNN audiences always increase during major news stories, but drop off on humdrum news days.
a
I
Photofest.
12.7 And What of the Audience? As reflected in the desires and needs of listeners and viewers, the public interest is paramount-according to public pronouncementsof politicians, the Supreme Court, most broadcasters speaking at public hearings and meetings, and almost everyone else. Yet, because of broadcasting’s commercial support, pleasing advertisers usually comes first. Further, “the public” really is many publics, as advertisers recognized decades ago. The average person today does not remember a time before television, but has completed more formal education than his or her ancestors, is growing older, and some may have more leisure time-or are more willing to spend most of the time theyhave after work in front of the tube. The audience, although passive, is essential. Although earlier predictions that there would be moreleisure time in which to pay attention to the media have fallen afoul of a national desire to garnerdollars to buy “things” even at the cost of longer work weeks formost adult household members, the media audience is still huge and supports theadvertisers who supportprograms. With respect to the adoption of new technology, the public generally demands programming service before investing in receivers, VCRs, and
12.7 And What o f the Audience?
729
other expensive home entertainment devices. During the 1950s and 1960s, whenever there was special scheduled programming-Peter Pan, the Olympics, the Academy Awards, evenpublic affairs such as national political conventions-people rushed outto buy theirfirst sets. Later, people bought color sets to see special programs (and even ads) transmitted in color. Although free-enterprise purists argue that competing devices or standards be allowed to fight it out in the marketplace, neither the public nor manufacturers are willing to take much risk by investing in devices that might not be adopted. So, everyone usually waits until thegovernment or a united industry determines technical standards and specifications. However, since the FCC now tends to defer to the market, questions on standards and formats are waiting, in the final analysis, for the public to commit itself, usually basing this commitment on which standard is most actively promoted or has the mostpolitical support.
-
12.7.1 Activists and Passivity
Research shows that most viewers are content to let the experience wash over them with little overt reaction. Even switching between a growing number of channels seems to be more a result of boredom, overfamiliarity with a given program or format, and increasingly limited attention spans than a conscious decision to change. “Water cooler’’ discussion of a program the next day with relatives, friends, or co-workers is ever more rare. Broadcasters and advertisers have relied on head-counting research-the ratings and associated demographics-to determine the success of the programming they supply and make it the primary criterion for retaining or dropping a program. The claim that the majority of the public is satisfied with current broadcast fare has some validity, even though the public has no choice beyond the menu which networks, stations, and cable systems provide. Yet, in a country of more than 280 million people, even a small minority may contain millions of potential audience members! There are a few exceptions to general passivity in the form of small and temporary activist citizens’ groups like Action for Children’s Television (ACT). Voluntary feedback-phone calls or letters-is rare but sometimes is effective enough to bring back a canceled program, or cause a network or stationtodropone,since one person willing to communicatewith programmers may represent hundreds or thousands of others who may be disaffected but not willing to exert themselves. A handful of audience groups work to persuade the FCC and Congress that action of some kindis needed, usually with respect to programs containing sex and violence, although now that the FCC no longer requires stations to retain program logs and, with changes made by the 1996 Act, it is almost impossible to challenge a license renewal. Other legal approaches are unlikely to succeed. On the other hand, if enough members of Congress can be recruited, any cause may succeed.
730
Chapter 12 Lessons from thePast for the Future
Growing sophistication of advertisers and theincreasing number of stations and cable systems has ledto a redefinition of “mass communication,” particularly as applied to radio. The manyhighly specialized stations of today have loyal but relatively small audiences for very specifictypes of programming. Some advertisers, realizing that a “class” or “niche” audience with interest in their product or service might be more desirable than a much larger but indifferent “mass” audience, have geared their time-buying accordingly. Increasingly sophisticated advertisers rely on demographics (data on audience composition for a given program) and psychographics (data on audience likes and dislikes), which allow them to groom and aim their messages at a particular target. Sociological categories such as Yuppies (“Young Urban Professionals”) and Dinks (“double income, no kids”) weren’t precise enough for time buyers. The shrinking number of research and measurement services have developed techniques, such as people meters, to better determine audience characteristics, even of the still massoriented networks, so that advertisers may match their efforts to potential customers.
-
12.7.2 Worry about Effects
Researchers, critics, and other observers rarely agree on the effects broadcasting has on its audiences although virtually everyone agrees that there are effects. Since the mid-l%Os, concern about the effect of televised violence on children haselicited a series of congressional hearings, millions of dollars’ worth of research, two important government and several private reports, reflecting several schools of thought on the issue. Yet the research had to be stimulated from outside, by nonindustry groups, since broadcasters were unwilling or unable to determine broadcasting’s impact. People spend more time with radio and television than with almost any other activity, but the theoretical constructs and objective data to determine the effects of such attention are only slowly becoming available. Broadcast time salesmen cite a great deal of research, much of it self-serving, to convince advertisers that radio or television would be themost persuasive medium for selling goods and services, but very little definitive research on passivity, violence stimulus, stereotype formation, or other hypothetical or real effects has been done. Radio and television can provide a learning experience, but just what is learned, by whom, and with what effect is not well understood even after decades of speculation and a great amount of research. Fearful of change, the industry recognizes that if the public becomes truly aroused by the problems that programs emphasizing violence and sex may cause for children, it is bound to lead to government restrictions or possible public relations-conscious advertiser boycotts. Mandates for often-invalid subject matter screens for Internet terminals in schools and
12.7 And What of the Audience?
731
libraries show thedirection of legislative thinking. But the few cases of an imitative violent act in real life following a violent act on the television screen rarely show a direct cause-and-effect relationship on close analysis. In cases that seem to showa relationship, it usually can be shown that the person had exhibited abnormal tendencies previously and that Wilbur Schrarnm’s conclusion that “some kinds of stimuli have some kinds of effect on some kindsof people sometimes” still holds.
12.7.3 Critics and Criticism
5
Yet this does not satisfy those who believe that the mass media are to blame for many-perhaps most-of the world’s evils. To forestall more onerous regulations, for many years broadcasters advocated self-regulation, which culminated in 1975 with the short-lived “family viewing’’ time restriction onairing violent programs in theearly evening. Although some broadcasters blamed this development for a drop in prime time ratings and use their raunchiest or most violent episodes during ratings sweeps periods,and there is a general disregard of the millionsof children who watchtelevision after nine o’clock and of the manyviolent scenes on the evening news, self-regulation was not the last word. When an antitrust legal challenge to the NAB’S self-regulatory code on advertising was successful in 1982-1983, the NAB quickly abolished all program standards, leaving it up to the networks’ and stations’ own self-interest to parry public objections. On theother hand, in the mid-1980s the FCC disowned its 1964 Pacifica decision that theairwaves are not wholly for the inoffensive and bland when itcame to “indecency,” responding to a handful of complaints and relegating serious (as well as possibly prurient) content to a “safe harbor” in the middle of the night, when childrenmight be expected to be in bed. “Media-bashing” tends tobe a favorite pastime of critics and politicians alike, and there is a tendency toblame the media[film, radio, comic books, television, and records, in that general order, over the years) for anything that goes wrongwith our children or our society. Butto the general public, getting higher-quality receivers at reasonable prices and being able to get a distant signal over the air or through cable with an entertaining program were far more importantthan any hypothetical dangers from content. Static mattered more than sociology, and big-name sports and entertainment was more importantthan high culture. Thisself-generating cycle supported the economic rationale for limiting programming experimentation. Most people wanted to be entertained; even atthe height of World War 11, during an early 1970s landing on the moon, or in the middle of the 1991 Gulf War, complaints flowed into stations about news cutting into favorite shows. News and documentaries had low ratings, and whencombined with the unpopularity of the war in Vietnam, the unpleasantness of the Iran-Contra affair,or
732
Chapter 12 Lessons from the Past for the Future
lack of drama in political conventions, it isno wonder that thenetworks often shunned such special public affairs programming. On the other hand, since tabloid-fodder like the 0. J. Simpson case and the Clinton-Lewinsky scandal of the late 1990s appealed to the prurient-minded, they received a tremendous amount of air time-and fewer complaints. At the same time as the public exhibits general satisfaction, there is more research and increasing congressional, conservative religious group, and other social critic interest in using television (and cable) as a whipping boy and placing restrictions on it. While a handful of activists try to improve the system, most citizens, virtually addicted to media thatdid not exist a generation or two ago, relax and watch and listen. Although the negative effects of broadcasting have rarely bothered most people, the public is aware that thereare many things that are pathological about today’s society and world-and is looking for scapegoats. Consequently, it considers an broadcasting-a messenger telling us about the world’s problems-as obvious and vulnerable target due to its presence in the home. On the one hand, broadcasting is condemned as causing social ills; on the other hand,
staying fined While youth were often the first to pick up the wireless habit, their elders could also be persuaded to tunei n . . . just as today’s older generation came belatedly to the Internet’s many services. The development of radios with loudspeakers, and using household electricity rather than batteries(or crystal sets), paved the wayfor radio to become a medium used by all members of the household. In some ways, this was a revolution as important as the invention of radio itself.
m
.ILI”
Photos courtesy Smithsonian Institution. (76-14662 and 76-14658)
. ~ ~.. , ,.
12.7
And What of theAudience?
733
radio and televisionalso are attacked for not doing something to cure them. A surprising proportion of people say that, despite the First Amendment, they are willing to accept some kind of governmental control-over programs and Internet content directed to adults as well-if it will eliminate material deemed potentially harmful to children. 12.7.4
M
A Few Predictions
The coming of expensive and physically larger digital television, including HDTV, probably will returntelevision viewing to the living or media room, and may reduce the useof second (or third) sets in bedrooms and kitchens. The public will not turn away from television as its primary entertainment medium, although news may be attended to on theInternet ratherthan the networks in the future. Radio will continue to become wallpaper, and few will listen to whatever local service remains, although new services offering “jukeboxes in the sky” or radio via satellites aimed at the driving
Chapter 12 Lessons from thePast for the Future
734
public were being introduced in 2001. It is very unlikely that definitive research into adverse effects of the media will be accomplished-but that will not stop activists from attacking the media or legislators from regulating them. Congress’s adoption of the principle of deregulation apparently applies more to the business aspects of the media, and not their content. It will be easier to program one’s own entertainment through the use of VCRs-and eventually, computers-for time-shifting and the playback of rented movies, which also are available on DVD. Audience research will become ever more sophisticated, with personal portable people meters capable of measuring attendance to all sources of information, persuasion and entertainment-including the Internet.
12.8
A Changing Policy World
Running through America’s electronic media history is a search for the meaning of the elusive “public interest, convenience, and/or necessity.’’ Promulgated in theRadio Act of 1927 and continued under theCommunications Act of 1934 (and even in thefar-reaching 1996 amendments), this is the criterion against which allregulation of broadcasting is measured,yet it never has been satisfactorily defined either by Congress, which thought it up, the FCC, which hasto administer under its terms,or the courts, which have to deal with the result. This may have some advantages in that it permits interpretations thatreflect current reality rather than an idealized and rigid fiction. Surprisingly, recent proposals to do away with the public interest standard in the interestsof allowing the broadcaster more freedom actually tend to be farmore rigid. 12.8.1 Reluctant Regulator
mmr!sx4
Part of the problem is the FCC’s traditional reluctance to regulate.This is not just a recent development, although emphasis after 1980 on deregulation and marketplace ideology indicates that this reluctance has reached such an extreme that one wonders if members of the FCC believe in any of the principles spelled out in the Communications Act. Rarely if ever possessed of clear jurisdiction, sufficient information on which to base decisions, or the power to enforce them, this politically sensitive body traditionally has ignored or postponed problems-and no wonder. For years, the Court of Appeals for the District of Columbia Circuit has overturned many FCC decisions, further reducing the incentive to make them. Although many participants in the regulatory arena practice delaying tactics in order to maintain the status quo for their own advantage, at the commission delay seems virtually a goal in itself. Even so, the trend,from the first enactment of radio laws in 1910 and 1912 Until the endof the 1970%was toward greater government supervision. At that time, growing case law precedent, congressional
12.8 A ChangingPolicyWorld
735
interest in anything that affects the interests of its constituents, andthe accretion of cases and policies into formal doctrines established a situation in which many broadcasters felt themselves narrowly circumscribed. Other than during thechaos of the mid-1920s, the broadcasting industry has always maintained that the lessregulation, the better. The chaos of unrestricted competition, in a field inherently limited by the strictures of the electromagnetic spectrum, was ended whenCongress passed the Radio Act of 1927-with the enthusiastic approval of both the listening public and broadcasters. So long as the federal role was limited to such technical matters as clearing the airwaves of interference, most broadcasters had little objection to the new agency. But in theself-perpetuating nature of most bureaucracies, the FRC and, later, the FCC moved into programming areas to serve better that ill-defined “public interest.’’ From then on, a low-grade war was waged between private enterprise and government bureaucracy, punctuated by moments of high drama as dirty laundry (such as the late 1950s’ quiz show, payola, and plugola scandals or the behavior of incompetent or dishonest commissioners) was washed in public while pious promises were made about doing better in thefuture. In its first six decades, the commission varied between “leaning tower of Jell-0” accommodation with, or even subservience to, the industry and mutual antagonism, which builtto one peak with the1946 “Blue Book” and to another during the several years of FCC activism that started withChairman Minow’s “vast wasteland” speech in 1961. Although no major revisions in law or regulationresulted from theseactivities, the climate changed after Minow was appointed, and broadcasters no longer possessed the informal control over the commission they had long held. In recent years, broadcasters and most members of the now-five-member commission have been on thesame side of the ideological fence-but, unfortunately for broadcasters, their most importantadversary has become the cable and the DBS industries, toward which both Congress and the FCC seemed to be leaning.
12.8.2
The Faceless Staff
I n evaluating government’s role in broadcasting, it is good to remember that the several agencies involved-Congress, the FCC, the OTP and its NTIA successor, and the courts-are not monolithic. They are composed of a changing cast of people with varied goals. Commissioner Johnson’s interest in eliminating cross-media ownership in the 1960s had a very different philosophical base from President Nixon’s 1970s attack on the ownership of television stations by the Washington Post, which opposed him. Most FCC members were appointed because of their earlier activities and views, with some getting the positionbecause of old political debts, some because of service as a staff member of either the FCC or Congress, and some
736
Chapter 12 Lessons from thePast for theFuture
because a president wanted someone whothought as he did. Most recently, the nod often has gone to individuals who have the backing of influential members of Congress-and who fit into an unwritten quota system for women and members of minority groups. With a seven (now five) year term of office, the CommunicationsAct expected the members of the FCC to be independent-but most members have not proven strong enough to stand up to the chairs of powerful congressional committees. Behind the scenes, however, were “the staff”-the generally unknown congressional committee aides, FCC senior civil servants, and politically oriented technocrats of the NTIA-who had their owngoals and a great deal more continuity than their elected or appointed superiors-and who often were not averse to educating, arguing with, or (more rarely) subverting their masters. Most of these people worked conscientiously in the public interest, but their length of tenure often froze their points of view, including a tendency to protect the status quo. Although current controversies occupy our attention, they are seldom truly current. Most regulatory problems have been around for a long time; some take decades to reach a decision. Precedent often becomes so encrusted that various sides in a disputeoften have difficulty finding new approaches to long-standing issues. Nevertheless, identification of some of the themes underlying today’s problems may help explain them. 12.8.3 Concentrating Ownership
maPma
One such theme isconcern over concentration of ownership of broadcasting stations and cable systems, a concern typically pushed on the FCC by left-wing populist members of Congress. Restrictions were instituted on multiple ownership of stations in a given market, on cross-ownership between media, and on particular combinations such as television stationcable ownership within astation’s coverage area starting in the 1930s and continuing through the 1950s. The courts generally supported this FCC and Justice Department activity, starting with the Supreme Court’s 1943 upholding of the commission’s chain broadcasting (network) rules. Existing combinations have been allowed to continue, and some no-holdsbarred attempts have been launched to persuade the FCC to grant waivers, notably by Rupert Murdoch, who wantedto own both newspapers and television stations in New York and Boston in 1988. After changes were made early in 1999 that allowed such cross-ownership, it was anticipated that the prohibition against newspapers owning stations in the same market soon would disappear. Under the old rules, changes in corporate ownership led to such extremes as pioneer NBC having to divest itself of its owned-and-operated radio stations in order to retain television stations in the same markets after purchase of its parent, RCA, by GE in 1985. Since members of Congress concernedabouteconomicconcentrationwere
12.8 A ChangingPolicy World
737
scarce in the late 199Os, what antitrust actions were undertaken by the Justice Department (such as the Microsoft case) seemed to be out of bureaucratic habit rather than conviction. The commission’s partial relaxation of the multiple ownership rules in 1985 predictably led to a large increase in station sales, abetted by relaxation at the same timeof rules against “trafficking” in station licenses. In 1996, almost all restrictions were removed for radio, permitting a single licensee to own hundreds of stations, including several in the same market. Three years later, the FCC announced that it was planning to relax same-market ownership rules for television-one of the stimuli for the Viacom-CBS merger. This was a triumph of the ideology of deregulation, which had started in the late 1970s, originally touted as removing only outmoded and technicalclauses from the rules. By allowing stations tobe bought and sold for short-term gains (“trafficking”),the FCC removed one of the last regulations that was based on the concept that the broadcast media were “special” and subject to the public interest standard. 12.8.4 Seeking Fairness
IIIIIILAI
Perhaps the FCC’s most important and longest-running policy donnybrook was theFairness Doctrine, which started simply enough when theFCC decided in the 1941 Maflower case that thebroadcaster should not be an advocate. The FCC then changed its mind in1949, holding that abroadcaster could be a n advocate if he or she provided an opportunity for opposing views to be heard. As the doctrine evolved case by case over the years, it split into twoparts: the right of the public to hear opposing views on controversial matters of public importance (incorporated in Section 315 of the Communications Act in 1959), and the right to respond for those personally attacked during such a presentation (incorporated in the FCC rules in 1967). In its 1969 Red Lion decision, the SupremeCourt upheld both. The Fairness Doctrine, which was primarily intended to benefit the public by encouraging the airing of varied opinions on matters of public concern, became a rallying point for activist citizens’ groups after 1964. When it was used in 1967 to require that stations broadcasting cigarette commercials (a law prohibiting this practice didn’t take effect until 1971) provide free antismoking spots, many in the industry and elsewhere felt that expanding the Doctrine to cover a commercial product was a dangerous precedent, in part because the requirement did not affect nonelectronic media. Different groups seized on the decision to demand time to respond to other commercials on consumerism or environmental issues. With the aid of the courts, the FCC later managed to put the lidback on this Pandora’s box. This did not stop citizens’ groups from pressuring for increased access. They tried to use the Fairness Doctrine and other regulations to achieve something different from fairness: access to the airwaves for persons who
738
Chapter 12 Lessons from thePast for theFuture
had something to say-in the way they (and not the broadcaster) wanted it said. Argued best by attorney Jerome Barron,this concept led to little-used public access channels for CATV in the FCC’s 1972 rules, to parts of the 1984 cable act, and to continuing pressure on broadcasters in the form of petitions to deny license renewal (until they, too, were eliminated in the 1996 Telecommunications Act). Congress and the commission, both now believing that the Fairness Doctrine had been pushed too far, instigated hearings, revision proposals, and court tests of the doctrine’s procedures-and even of its basic desirability. In a nutshell, the Doctrine had become a hot potato-particularly since post-Watergate election reform laws and many 1970s libel law case law changes further muddied the waters-and, with support from broadcasters, the FCC became loath to apply the Fairness Doctrine. In 1985 the commission let it be known that it waslooking for a way to dump thedoctrine as unconstitutional. While this wouldplease conservatives in andout of government, as well as broadcast journalists and others who felt that the doctrine interfered with their First Amendment rights, the Democratic majority in Congress felt so strongly that the doctrine should be retained that when theFCC did drop it in 1987, Congress tried to restore i t - o n l y to have the bill vetoed by President Reagan. And there things stood during most of the Bush and Clinton administrations. However, broadcasters-led by the Radio-Television News Directors Association, which consistently maintained that the Doctrine actually worked to lessen public debate, since licensees were loath to risk having to carry time-gobbling opposing points of view-never gave up on their opposition to the Fairness Doctrine. In the Fall of 2000, as the Clinton administration wound down, a federal judge effectively killed the last two elements of the Fairness Doctrine, ending nearly 60 years of debate. 12.8.5
Lobbying
Supposedly held accountable by the Communications Act, broadcasters came to distrust continual FCC’s investigations and rule changes, and “harassment” by citizens’ groups, some of which had financial support from tax-exempt foundations or even government agencies. Until this trend was reversed in the early 1980s under the Reagan administration, government increasingly seemed to guide and limit the licensee’s authority over station operations. The FCC, itself under pressure, at first tried to walk in the middleof the road, refereeing confrontations between broadcasters and listener groups to the dissatisfaction of both. The commission’s typical tactic of delay proved ineffectual as citizens’ groups found their way to the usually more receptive courts, a not-surprising development in an ever more litigious society. When in the late 1960s the WLBT decision (see pp. 460-463) gave some types of citizens’ groups standing before the FCC,
12.8 A Changing Policy World
739
it expanded the list of participants in the regulatory arena, although this right was limited in the 1990s. These newcomers, like other players, soon found it advisable to negotiate their concerns directly with broadcasters rather than take the long road through the commission and thecourts. In many cases after the mid-1960s on, broadcasters often found that their owncauses were not doing well. Much of this was due to an inability to lobby Congress as effectively as the rival motion picture and cable industries, partly because of corporate unwillingness to give up specific advantages for the common good-in 2000, for example, NBC (and shortly thereafter Fox) withdrew from the NAB because of NAB’S position in support of ownership limits on local stations. CBS also dropped its membership thenext year. During this period,cable had steadily improved its ability to lobby both Congress (which was particularly pleased by “free time” each week) and the FCC. The FTC, the antitrust division of the Justice Department, and other agencies developed popular antibroadcast ideas for increasing regulation of broadcast advertising and building intramarket media competition until thelaissez-faire atmosphere of the 1980s buried these efforts. Congressmade increasing demands onbroadcasters for the carriage of political campaigning at bargain prices. Anti-job discrimination lawsone of the few areas under active FCC regulation during the Reagan eraand a requirement that broadcasters survey community leaders and the public to ascertain the community’s needs as part of the license renewal process added to the moundof paperwork required of each broadcaster. On the other hand, Congress in 1981 finally lengthened license terms (to five years for television and seven for radio) and in 1996 raised both to eight years and made it almost impossible to challenge an existing license. Although these increasingly complex regulations led broadcasters to think that the commission was firmly in the citizens’ group (“enemy”) camp duringthe 1960s and 1970s, such was not the case. Some regulations were mandated by Congress, some were the product of normal bureaucratic expansion, and others were the consequence of court decisions or were in response to real abuse of the public interest. The increasing number of multimillion-dollar libel suits reflected the case law of defamation, not a policy of the commission. The FCC’s policy of delay fitted in well with the goals of those broadcasters who were economically powerful at agiven time. Commission action or inaction-as contrasted to commission rhetoricgenerally favored broadcasters over outsiders, AM over FM,VHF over UHF, and television broadcasters over cable until the newly found political strength of the cable industry caused a flip-flop. Only when the need for new services or technologies became absolutely clear did the commission approve stereo and nonduplication rules to help FM, support the allchannel receiving set lawto help UHF television, and loosen restrictions on pay-TV and cable. The courts-in decisions on cable television, or on the copyright law-showed careful attention to political winds but settled into this same pattern. Even then, the new regulations seldom were even-handed.
740
Chapter 12 Lessons from the Past for the Future
Usually regulators protected the existing service; sometimes, as with cable in the mid-l970s, they favored the new service; but always they claimed to be serving the public interest. 12.8.6 Other Agencies
Broadcasters aresubject to laws and policies that are not within thepurview of the FCC. For example, although a federal shield law protecting the confidentiality of reporters’ sources has never gotten anywhere, many states have such laws-and also permit cameras and microphones in courtrooms. Locating radio transmission towers involves the FAA and a number of state agencies, with the FCC’s approval based on the decisions of others. Gavelto-gavel coverageof the House of Representatives’ proceedings over C-SPAN, a public affairs cable service (that ironically initially was not available in the District of Columbia) wasan initiative of the House, not the FCC, following the Nixon impeachment hearings. (The more conservative Senate followed suit in 1986.) Even afterthe Freedom of Information Actwas passed in 1966, journalistic access to government information-particularly in the courts and in those parts of the executive branch that use the excuse of “national security”-became more difficult each decade. Copyright, minimum wage, and a host of other laws apply to broadcasters without FCC intervention. A 19thcentury humorist named Peter FinleyDunne reminded us that the Supreme Court, however myopic it may be, carefully follows the election returns. So does the Congress-and most other governmental bodies follow Congress’s lead. Re-election is the primary goal of most legislators, so if a vocal constituency advocates content filters for the Internet, they probably will be installed regardless of the First Amendment. If Senators and Representatives are convinced thattheir more vocal constituents need protection, a flurry of laws to that end are proposed, regardless of minority points of view. Atthe start of the 21st century, most membersof Congress believe that their active constituency consists of business executives, and the laws that are passed reflect this. If others believe that the public interest would better be served with a different policy, it is up to them to organize. Sometimes-as in analyzing the argument over whether the copyright laws should be extended to promote private interests rather than the diffusion of knowledge-one has to examine the politics of the economyrather than the principles of the Constitution. A wise man once suggested that it is better not to view the messy making of sausage, newspapers and laws. If we are afraid of the mess, then we probably have the government we deserve. 12.8.7 Self-Regulation
Self-regulation in broadcasting is one barometer of public concern over radio and television’s role in society. Like most such industry self-regulatory efforts, the NAB codes (1929-1982) were intended to influence public
12.8 A Changing Policy World
741
opinion. They had little policing effect, no matter how mucheffort was devoted to their wording. With some exceptions-the informal ban on hard liquor advertising and the briefly in force provision for “family viewing” time are two-the codes were platitudes, often ignored if the industry was in economic difficulty. Mostimportant, not all stations were code members, many did not feel bound by them, and the only enforcement penalty was withdrawal of permission to use the code’s symbol or s e a l w h i c h hardly anyone noticed anyway. Consequently, when a 1982 federal court decision of commercial time struck down television code limitations on the amount allowed per hour, the NAB readily eliminated anypretense of maintaining industry-wide programming and commercial time standards. Apparently today only the carefully honed ability of networks to avoid controversial material and congressional and political interest in theprotection of young children fiom sexually explicit or other “indecent” programming prevent even more “anything-goes” programming. 12.8.8 Planning Ahead
Rwmum
Finally, it should be noted that therenever has been a consistent long-range communicationspolicy inthe UnitedStates, except asinadequately sketched out in the1934 and 1996 acts, the latter being largely implementation of a market basket of ideological position statements. The pressures of budget and day-to-day duties have restricted bothcongressional and the FCC’s long-range vision-indeed, some members of the FCC and Congress would like to abolish the regulatory body altogether. Congress is too concerned with politically inspired hearings and re-election fund-raising and lacks the continuity for such planning; and broadcasters are running dayto-day businesses. In 1951 and again in 1968,presidential commissions examined U.S.telecommunications policy, but most of their quite-different recommendations were ignored. When the OTP was formed in 1970, it seemed to be a steptoward continuing policy research at a high government level, but itquickly became mired in politics and short-range goals. It is thislack of long-range, policy-oriented thinking thathas led togovernment reaction to recurring problems rather than anticipation of their recurrence, even with anincrease in telecommunications policy research and establishment of the NTIA in the1970s.In the 1980s and 199Os,doctrinaire conservative economists dominated policy that previously had taken account of technical constraintsand broad political economy theory. Much of the agenda of the Reagan (1981-1989) and earlier Bush (1989-1993) administrations was determined by ideological economic principles, and both administrations preferred to develop new policies within conservative think-tanks rather than in the give-and-take of traditional policy-making procedures. This movement was strong enough that the Clinton administration (1993-2001)never felt it had thepower to swing the pendulum in the other direction, even before the 1994 Republican takeover of Congress.
742
Chapter 12 Lessons from the Past for d e Future
12.8.9
A Few Predictions
After nearly three fourths of a century of broadcast regulation, the controlling phrase “public interest, convenience, and/or necessity” is likely to remain undefined beyond what the current political situation says it means, with resultant regulatory confusion and lack of goals. Notonly does the 1934 Communications Act respond slowly to change, it often is administeredor funded-by people who seem to have little loyalty to its principles. This uncertainty guarantees that philosophical and operational regulatory problems will remain with us in the future. The swings from regulation to reregulation to deregulation and back again ensure that the current situation will not remain stagnant. It might be said that the debate is between those who believe “that government is best which governs least” and those who believe “that government is best which governs best.” At one time, both sides cited the public interest standard as backing their positions. Today, this standardis in eclipse and there appears to be little appealin Washington of the idea thatbroadcasting is unique and important in our society and that it should be carefully nurtured-or restrained, if necessary. In other words, since the early 1980s broadcasting has lost its once “special” status and has been lumped in with other electronic media as just more contenders for use of the electromagnetic spectrum. And this seems likely to continue until something changes the political system. The idea that the public interest standard (may the best-as far as the public interest is concerned-applicant win the channel) shouldbe abandoned in licensing in favor of auctions (may the wealthiest applicant win) or even lotteries (may the luckiest applicant win) seems likely to hold sway for some time. The continual applicationof ad hoc solutions to seemingly permanent problems has taken a toll. Because both industry and government understandably are looking out for themselves, the public interest suffers as a result. Concerted action by knowledgeable and impartial citizens could change this pattern but would require preparation, popular support, and funding. Past experience suggests that it would be desirable to have solid, impartial research and policy initiatives supported by funds generated outside of either bureaucratic or industry control-and an outlet to present these views to the public. The potential of such a “third force” in the electronic media is great, but its likelihood seems disappointingly small.
But what if radio and television broadcasting had never developed? How would life in this country differ? The answers to such questions suggest the dramatic impact of more than eight decades of American broadcasting.
12.9 And i f There Were No Broadcasting?
743
I m The Sarnoff “Radio Music BOX”Memo This is the frequently-reprinted 1920 version of a memorandum looking toward using radio telephony for broadcast-
ing rather than point-to-pointcommunication. written by David Sarnoff to his thensupervisorat the Marconi company, E.J. Nally, in1916.The earlier version has been lost since the early 1920s.See pp. 4647.(Courtesy of Louise Benjamin)
I
..
a planof development which would make radio a ‘household utility’ insame the senseas the piano or phonograph. The ideais to bring music into the house by wireless. . . The problem of transmitting musichas already been solved in principle and therefore all the receivers attuned to the transmitting wavelength should be capable of receiving such music. The receiver can be designed in the form of a simple ‘Radio Music Box’ and arranged for several different wavelengths, of a single switch or pressing of a single button.. . . which shouldbe changable with the throwing The box can be placedon table in the parlor or living room, the switch set accordingly and the transmitted music received.There should be no difficulty in receiving music perfectly when transmitted within a radius of 25 to 50 miles. The same principlecan be extended to numerous other fields as, for example, receiving of lectures at home which can bemade perfectly audible; also eventsof national importance can besimultaneously announced and received.” ‘I.
.
. ..
Whether 1XE went on the air before 8XK is unimportant-but how broadcasting has affected the people of the nationis vital knowledge. Clearly, life without broadcasting would in some ways be a throwback to the days before 1 9 2 0 b u t even without broadcasting the world would not have stood still, and we cannot look back nearly a century and say, “That’show it would be today, without broadcasting.’’ We can only resort to a guessing game, a form of reverse futuristics, similar in some ways to taking the data in this book and extrapolating ahead to the last quarter of the 21st century andwhatever the electronic media have evolved into. 12.9.1 Daily Life
wFIB.a
Even the smallest unit of social life, the family, would offer a substantially different milieu in whichto grow up. Without broadcasting’s wider socializing effect, the family would have a far more important social role than it has today. Family members probably would fill their ever-longer hours of leisure with activities less passive than watching television-and might even do more things together. Our entertainment media would be very different: the film industry would be thriving, and newsreel theaters might be popular. Vaudeville would have remained both a major entertainment medium and a way for aspiring legitimate theater and motion picture performers to hone theiracts and their abilities-which would have more than satisfied “father of radio” Lee de Forest, who reportedly argued against establishing networks in favor of a circuit of vaudeville performers moving on from station to station! Recreational reading of magazines and books of all types would be greater. Even with 2lst-century transportation and the telephone, local communities would be more important. Home, school,
744
Chapter 12 Lessons from thePast for the Future
church, and immediate neighborhood might play larger roles in theabsence of pictures of the “greener grass” elsewhere. Our personal and collective identities would be with our community, city, state, or region rather than with the nation or world, which probably would have major consequences for the distribution and sale of retail goods, personal travel (would you wish to takea flight or an ocean voyagewithout modern electronic communication and navigation systems?), and international politics. Libraries would be more important, and education would concentrate more on improving literacy. Without broadcast journalism’s ability to tell us almost instantly what is happening anywhere at any time, we are left with newspapers or magazines (and motion picture newsreels) that take hours or days to publish admittedly more complete news, even when theevent warrants speed. We would find it much harder to identify with happenings far away when the news doesn’t reach us for such a long time. Lacking the cohesive effect of electronic media, regions of the country, let alone of the world, would be far more different from one another than they are today. Fads and information on living and social styles would travel more slowly and penetrate less deeply when passed on only by print, film, and word of mouth. Even our language would be different, as there would be no broadcast media to help override regional dialects and usage. English might not be so dominant. Our knowledge of other areas would be limited to memories of personal travel or to images from the printed page, still photographs, and movies. Resultsof international diplomatic-and sports-meetings would take at least a day to reach us, and the sport would lose much of its thrill whenreduced to print rather than conveyed live or on videotape by satellite. Familiar sports, as played by local teams rather than distant national leagues, would be preferred over accounts of exotic events (such as many of the Olympic games), that have to be seen to be understood. Indeed, without enormous payments for the rights to television coverage, sports organizations would be very unlike those of today.
12.9.2 Social Movements
In addition to a slowing down of new fashions and ideas, there would be substantial political and economic impacts from the absence of broadcasting. No longer could a political idea or a national leader mobilize or galvanize an entire populace-particularly persons who cannot or will not bother toread-in a day or two. The civil rights movements for minorities and women would have progressed much more slowly without constant broadcast news coverage, and incorporation of these themes into dramatic television offerings. If we had been engaged in wars in Vietnam or the Gulf without television, our views of them would probably have changed more slowly-if at all. The Soviet Union might have lasted longer. Without the necessity to cater to television’s visual appeal, other presidents might have been elected (or Watergate more easily covered up). This alternative world would be unimaginably different.
12.9 And i f There Were No Broadcasting?
745
12.9.3 Other Medidother Regions Rlr(llA
In the economic sphere, manyproducts and services would suffer without broadcast advertising, since advertisers would be forced to use print or perhaps film for national advertising. On the other hand, like today, direct mail and point-of-purchase displays and billboards would receive the most advertising dollars. Naturally, the consumerelectronics industry-and the related trade deficit with Asia-would be much smaller. Such general circulation magazines as Life, Look, and the Saturday Evening Post, all of which went out of business in the decades after television was introduced, still might be thriving as mass audience advertising vehicles, with circulations in the tens of millions. With these large circulations, advertisers probably would want to have more say about content in order to avoid offending potential consumers. Careers of show businesspersonalities would rise and decline much more slowly. The recording industry would boom,although musical stars would develop more slowly than today’s overnight sensations, Many performing arts groups would have larger live audiences than they now do. Overseas, suspicions of a country’s neighbors might be higher than today, with its worldwide boundary-crossing television and radio-or, since radio also is used for propaganda, the effect might be a wash. Economically, groupings of nations like the European Community would be much less likely. Language differences would be more important and harder to overcome. Human nature being the same the world over, the motion picture might be theonly “universal” medium,as it wasin the first decades after it was introduced. But, of course, since radio and television (and the Internet) were successfully innovated, we need to look backward a bit in order to forecast the future intelligently. The coming of radio in the 1920s took the nation by storm and had substantial effects on print,film, and phonograph recordsas well as on the family, economics, and politics. But, unlike the complete displacement of the horse and buggy bythe automobile, some older media, particularly records, thrived on their own improving technology and lived in symbiosis with radio. Radio has taken over the role of the newspaper extra, but it not is suited todisseminate the comic strip or the political cartoon or to serve as a medium of record. When television arrived in the late 1940s and early 1950s, this dislocation was repeated. Radio, after less than 25 years, was virtually eclipsed as a national (but not as a local) medium. Television joyously took over radio’s content, just as movies took over the content of the Broadway theater. The movie industry itself was shattered for decades, expanding output in the 1980s only because of demand from cable, VCRs-and a new young audience for “blockbuster” films. But, radio did not eliminate recordings or movies, and television did not eliminate radio-so it is probable that the Internet will incorporate some of the content of older media, and not replace them.
746
Chapter 12 Lessons from thePast for theFuture
12.9.4 summingUp
llllJl
For nearly half a century, television has been the dominant mass mediumin the United States, with other media scrambling for significant and profitable niches. It has carried an increasing proportion of national advertising and has given a majority of citizens most of their news. The motion picture industry primarily is its handmaiden, while the newsreel and the national weekly picture magazine have disappeared entirely. Minor league sports have all but disappeared in the face of major league television coverage; although many new teams and leagues have been established solely because of expected television income. But broadcasting and otherelectronicmedia are more than mere economic institutions. They have given us moments of laughter and high and low drama-including wars, and the death, resignation and impeachment of Presidents-and have extended our eyes and ears to the entire world and even to the Moon . . and Mars. They have brought us closer together. Except for the dwindlingfew born before 1920, we have all known radio all of our lives. Those born since 1950 have grown up with television-their “local” community is defined by it in many cases-and they will spend more time with television than with almost any other activity. They make up thefirst television generations. Those born since 1970 missed the exciting growth of the early years, and by not remembering anything different and accepting television as it is, they unfortunately may be unaware of much possibility for improvement. Those born since 1980 are the computer generation, one fully used to two very different screens and the ability to get information (and entertainment) from the Internet on demand, and who consider scores of television channels theirbirthright. The violence and sex, beauty and laughter, emotion and reason provided bysociety’s ambiguous mirror, which both reflects and projects, have affected and will affect them. They, in turn, will change American society, including, in full circle, the electronic media. While the impact of broadcasting may not always have been beneficial, it has been deep. To understand what has been heard and seen over radio and television during the past four fifths of a century is to understand Americanlife better. As forthe futureStay tuned . .
.
.
747
This very selective chronology of highlights is divided into periods paralleling the chapters in thetext and isrestricted to what we feel are the most important events of each year. In periods of consolidation or evolution, such as the 199Os,there are relatively fewer “events.” The material has been gathered and condensed from (see bibliography for full citations)Barnouw (1966, 1968, 1970, 1990), Broadcasting (1970, 1976), Dunlap (1951), Head (1976), Kempner (1948), and several unpublished sources of which the most useful was L. W. Lichty’s “A Chronology of American Television to 1966” (unpublished).
The Prehistory of Broadcasting (to 1919) 1725 Gray [England) discovers the principle of conduction by observing
electricity carried several hundred feet through a hemp thread. 1753 An anonymous published letter[England) suggests wired communication with a wire connection for each letterof the alphabet. 1794 Chapp6 [France) devises optical/mechanical telegraph system using signals on towers between major French cities. 1832 Morse (United States) develops basic sense of what will become his electrical telegraph system and code. 1840 Morse receives telegraph patent applied for in 1837. 1843 Bain (Scotland) devises basic principles of transmitting pictures (later known as facsimile),much of it applicable later to television. 1844 First telegraph circuit, between Washington and Baltimore, is officially opened withmessage “What Hath God Wrought?” 1858 First underwater telegraph cable is laid across the Atlantic but works for only a few months. 1861 Coast-to-coast telegraph lines put18-month-old Pony Express out of business. 1862 Caselli [France) transmits a crude image by wire between two towns. 1864 Clerk Maxwell (Scotland)theorizesexistence of electromagnetic waves. 1865 International Telegraph (later Telecommunication)Union is founded. 748
Appendix AAShortChronology
1866 Atlantic cable issuccessfulon
of AmericanBroadcasting
749
third major attempt. Loomis (United States) conducts wireless telegraph experiments in Virginia and sends signals about 15 miles. 1872 Loomis acquires world’s first patent on a wireless system but fails to commercialize it for lack of funds. 1873 May (England) discovers that selenium can produce electricity in direct relationto amount of light received. 1876 Bell (United States) applies for patent on telephone device, then demonstrates same at Philadelphia CentennialExposition. 1877 Edison (United States) succeeds in first audible reproduction of recorded s o u n d b a s i s of phonograph and subsequent recording methods. Carey (United States) proposes bank of selenium cells, each with wire conductor to similarly arranged bank of lights on reception end, for crude means of picture transmission. 1880 Leblanc (France) suggests the principle of scanning to allow faster transmission of pictures using only one wire. 1884 Nipkow (Germany) patents the scanning disc with spiral of holes with whichto scan and later reproduce pictures. 1885 American Telephone and Telegraph (AT&T)is formed from several earlier phone companies. 1887 Hertz (Germany) proves Clerk Maxwell theories in series of laboratory experiments. 1888 First photocell is developed, later of great importance to television. 1892 Stubblefield demonstrates his wireless telephone system. 1894 Jenkins (United States) begins theorizing about television system using mosaic system. Lodge (England) introduces and improves Branly (France) coherer as a wireless detector. It becomes the standard for two decades. 1895 Marconi (Italy) sends wireless telegraph messages approximately a mile on his father’s estate during initial experiments. 1896 Marconi arrives in England, demonstrates his improved system, and leads in formation of what willbecome in 1900 the “British Marconi” firm. 1897 Braun (Germany) develops cathode-ray oscilloscope as crude electronic displaytube. 1899 Marconi sends wireless signal across English Channel. British and American navies experiment with several wireless systems. American Marconi, British-controlled subsidiary of main firm, is founded. Wireless calls for aid bring about first rescues of crew and passengers from vessels in distress in European coastal waters. 1901 Marconi and aides send Morse code letter S across the Atlantic Ocean, demonstrating potential for long-rangecommunication applications of wireless.
750
Appendix A
A Short Chronology of American Broadcasting
1903 Berlin is site of first international radio conference, which proposes greater cooperation in ship-to-shore communication. 1904 United Fruit Company begins to build its network of radio stations in Central America and Caribbean countries to coordinate banana shipping. Fleming (England)patents two-element vacuum tube, or valve. 1906 Fessenden (United States) transmits voice and music program from transmitter at Brant Rock,Massachusetts. De Forest (United States) develops three-element tube, called triode or Audion. Pickard and Dunwoody (United States), among others, develop crystal detector-first inexpensive and easily duplicated detecting device. Berlin is site of second international radio conference, which adopts “SOS” emergency call and demands all companies and ships equipped with apparatus from various manufacturers to communicatewith one another in emergencies. 1907 Rosing (Russia) receives a faint television signal by using Braun tube and adding photocells. 1908 Campbell Swinton (England] suggests a completely electronic system of television. 1909 Herrold begins broadcasts from San Jose, California, and schedules them regularly shortly thereafter. 1910 First United States radio law, Wireless Ship Act of 1910, calls for radio and operator on all oceangoing passenger vessels. 1912 Titanic disaster dramatically shows value of wireless as 700 of 2,200 persons are saved after midatlantic iceberg collision. Second United States Wireless Ship Act requires two radio operators on all vessels at sea. A month later, Radio Act of 1912 provides first regulations for land radio stations and amateur operators. De Forest discovers amplification potential of triode, which leads to AT&T purchase of telephone rights to threeelement tube. 1915 Coast-to-coast telephone service established. American Radio Relay League set up as association of amateur operators. General Electric and British Marconi tentatively agree that GE will sell Alexanderson alternators exclusively to Marconi. 1916 De Forest broadcasts presidential election returns in Wilson-Hughes race. Sarnoff files “radio music box” memo with officials of American Marconi, who are interested only in international and shipradio for private messages. 1917 United States enters World War I. Thenavy takes over radio transmitters-especially the Alexanderson alternators, the only reliable long-distance wireless transmitters-for theduration, or closes down facilities; establishes system until 1920 of indemnifying companies for patent infringement-essentially a patents pool-so that best equipment can be made for wartime use.
Appendix A A
Short Chronology o f AmericanBroadcasting
751
The Beginnings of Broadcasting (1919-1926) 1919 Navy continues control of radio facilities after war as battle rages
over government’s role in future of wireless; Congress holds hearings (May-June). British Marconi resumes negotiations with GE for alternator, still demandingmonopoly rights, but after Navy intervention, GE forms RCA to safeguard American radio interests. RCA acquires rights to alternator (October) and assets of American Marconi, and enters into first patent cross-license agreement with GE (November). 1920 President Wilson orders Navy to relinquish control of amateur and all other nongovernment radio facilities (March). AT&Tjoins RCA-GE crosslicensing agreement in step leading to postwar civilian-controlled patents pool (July). To outflank position of RCA, Westinghouse purchases two key receiver patents from Armstrong (October). To encourage sales of radio receivers, Westinghouse establishes KDKA in East Pittsburgh, based on experimental station 8XK run by their engineer Frank Conrad. Initial KDKA broadcast is of Harding-Cox presidential election returns (November). 1921 Westinghouse attempt to compete in international radio collapses as RCA has tied up most foreign contacts. Westinghouse joins RCA patents pool, splitting receiver manufacturing rights with GE 60-40. United Fruit also joins pool (June). Thirty broadcasting stations go on the air, including six owned by Westinghouse and others operated by GE and RCA. Only two frequencies (channels) are in use for broadcasting. 1922 Hoover hosts first radio conference in Washington, which calls for government regulation of radio technology, limited advertising, and classes of stations based on kind of service (February). With hundreds of new stations, Hoover adds newfrequency for stations of higher power and high quality programming. First use of four-letter station calls (August). AT&T enters broadcasting, seeing it as extension of toll telephoneoperation. First paid-for commercial announcement onWEAF (August). 1923 Jenkins transmits unmoving facsimile silhouettes from Washington to Philadelphia by wireless (March). Zworykin (United States) patents iconoscope camera tube, key to an electronic television system. Second radio conference reiterates suggestions of the first and calls for temporary licensing guidelines until Congress will act (March). Planning meeting in Chicago leads to formation of National Association of Broadcasters, to fight ASCAP demand for payment from radio stationsfor all music usedo n the air and to seek government technical regulation. Hoover announces three classes of stations and assigns greatly increased frequency spectrum, about two thirds of current AM band, to two of them (June). RCA enters broadcasting by taking over programming of Westinghouse’s NewYork outlet and building a station in Washington and another in New York. The New York stations, WJY and WJZ, become major competition for AT&T’s WEAF. First multiple station hookupcombines WEAF (New York),WGY
752
Appendix A A
Short Chronology of AmericanBroadcasting
(Schenectady), KDKA (Pittsburgh), and KYW (Chicago) (June). First lasting hookup between WEAF and Massachusetts station comes a month later. Federal Trade Commission report, aimed mainly atRCA, criticizes monopoly in radio equipment and patents(December). 1924 First coast-to-coast radio program demonstrates use of telephoneline circuits and lays groundwork for planned national AT&T network, using WEAF as originating station (February). Third and largest radio conference in Washington calls for broadcasting use of entire 550-1,500 kHz bandand urges research into monopoly andstationinterconnection (October). Competition between Telephone Group (WEAF and allied companies and stations) and Radio Group (RCA, GE, Westinghouse, and others and their stations)affects decisions on programming, station interconnection, patents, and equipment manufacture. 1925 Baird (England) gives public demonstration of mechanical (Nipkow Jenkins disc) system of television by transmitting silhouettes (April). (United States) sends first filmed (moving) images by wireless using mechanical television system (June). * Fourth and last radio conference in Washington agrees that limit on number of stations may be required, radio is not a public utility, and limited advertising is acceptable (November). 1926 Zenith case shows limits of 1912 act when federal court holds Secretary of Commerce cannot prevent firm from changing station frequency, thus wiping outHoover’s voluntary regulatory scheme. U.S. Attorney General releases opinion that Secretary of Commerce can only process license applications and not regulate them. With all controls ended, licensing of 200 new stations addsto interference chaos on the air (Fall).
The Coming of Commercialism(1926-1933) 1926 Internal strife within industry is resolved as Telephone and Radio groups sign three-part agreement including provision that AT&T will exit business of broadcasting station operations (July). RCA forms National Broadcasting Company (NBC) (September). NBC purchases WEAF from AT&Tfor $1 million andbegins regular broadcasting on NBC-Red, based on old AT&Tchain of stations (November). 1927 NBC-Blue network, based on New York’sWJZ, begins operations with 1927 Rose Bowl broadcast (January). President Coolidge signs Radio Act of 1927, which creates Federal Radio Commission (FRC) (February). New FRC orders stations back to frequencies assigned by Hooverand sets broadcast band at550-1,500 kHz (April). Columbia Broadcasting System (CBS) goes on the air with 16 stations for a long and shaky start-up period (September). Ives (United States) transmits both still and moving pictures, as well as synchronized soundby wire. * Farnsworth (United States) transmits first electronic television pictures. Millions listened to radio coverage of Lindbergh solo transatlantic flight (May).
Appendix A A Short Chronology of AmericanBroadcasting
753
1928 Baird transmits television picture across the Atlantic and later demon-
strates mechanical color television. * Zworykin develops and patents a much-improved iconoscope tube. The FRC allocates several 10 kHz channels in the standard ( A M ) band for television. Congress passes Davis Amendment to Radio Act, which calls for equality of radio service in five regions in the country (March). Radio generally is becoming accepted as advertising medium, though it carries only 2 percent of all advertising this year. FRC announces plan to allocate clear, regional, and local AM channels (August). Paley buys control of CBS; is namedpresident in early 1929. NBC begins fulltime (but not 24-hour) coast-to-coast operation. 1929 In the Great Lakes case, the FRC analyzes what the public interest means for a broadcasting station. National Association of Broadcasters issues a code of radioadvertisingandprogrammingethics(April). Crossley’s Cooperative Analysis of Broadcasting offers firstsystem of network program ratings. * FRC becomes permanent body after several shortterm extensions (December). 1930 Formation of conflicting National Advisory Council on Radio in Educationand National Committee on Education by Radio. Lowell Thomas begins national daily newscast, on NBC-Blue (and broadcasts regularly until May 1976). RCA takes over GE and Westinghouse research efforts in television as part of the reorganization of roles of each firm following antitrust action. 1931 Court upholds FRC denial of license renewal to Brinkley’s KFKB because of past programming and personal attacks on the air (February). Appeals court dismisses appeal of FRC denial of Schaeffer license because of profanity uttered by candidate for public office; saying licensee is responsible (March). FRC rescinds license of Baker’s KTNT in Iowa for personal attacks and other program matters (June)and of Shuler’s Los Angeles station for personal attacks (November). The latter decision is later upheld as not being improper government censorship. These four cases help solidify the FRCS right to examine programming for public interest. Metropolitan Opera Broadcasts beginwith Milton Cross asannouncer (untilhis death in 1974). 1932 Radio reports the Lindbergh kidnaping, one of first tragedies covered on the air (March). University of Iowa begins scheduled educational broadcasting with mechanicaltelevision (the station staying on theair to 1939). RCA initiates 120-line electronic television field testing. GE and Westinghouse end long legal wrangle with agreement to sell allRCA stock; RCA, now fully independent, competes with former owners (November). 1933 First of President Roosevelt’s famous “Fireside Chats” (March), As newspaper-radio tensions rise, Associated Press limits sale of news to local stations. CBS gathers network news on its own (April). Biltmore Agreement between networks and news agencies eliminates independent radio reportingbynetworks (December). RCA initiates use of Zworykin’s iconoscope-kinescope combination and raises picture definition to 240 lines.
754
Appendix A A Short Chronology of AmericanBroadcasting
Armstrong receives (December).
the four key patents to new
FM radio system
Radio’s Golden Age (1934-1941) 1934 Three independent organizationsareestablished
to gather and sell news for radio in fight against Biltmore Agreement (March). Station WLW begins experimentation with 500,000 watts (until mid-1939) (May). Roosevelt signs Communications Act of 1934 replacing FRC with Federal Communications Commission (June). A new network, first called Quality and thenMutual, is started by owner and joint operator stations WOR, WGN, WLW, and WXYZ (September). 1935 RCA and Armstrong end cooperation over FM radio. Armstrong announces his FM system, and RCA achieves 343-line interlaced television scanning and announcesmillion-dollar television research program (May). Armstrong demonstrates his FM system (November). United Press and International News Service agree to sell news to radio stations and networks, marking effective end of Biltmore Agreement (May). 1936 Congress repeals Davis Amendment requiring equal radio service in five zones, thereby allowing for more stations andgreater power in areas of high population (June). FCC holds engineering conference and hearings on future of FM and television (June). * BBC (England) initiates regular television broadcasts comparing Baird mechanical with EMI-Marconi electronic systems (November). New York to Philadelphia coaxial cable is tested (December). 1937 American Federation of Radio Artists (originally “Artistes”),a union for announcers and performers (later known as AFTRA), is formed (July). In wake of chaotic Hauptmann (Lindbergh kidnaping) trial,American Bar Association adopts Canon 35, banning radio, recordings, and photography in courtrooms (September). FCC allocates 19 channels for experimental television (October), and Philco demonstrates 441-line television pictures. 1938 FCC makes first educational allocation in broadcasting, 25 channels in 4O”Hz band (January). First FM station, Armstrong’s W2XMN in New Jersey, goeson theair (April). Wheeler-Lea Actgives Federal a a d e Commission right to curb false and misleading advertising (April). Radio’s reporting of month-long Munich crisis is first major use of shortwave Orson Welles’s for live coverage of international event (September). production of War of the Worlds, the most famous single radio broadcast, scares many listeners(October). 1939 Associated Press begins to supply news without charge for sustaining programs on NBC (February) and later begins to sell news (June), thus finally ending the Press-Radio war. FCC issues a memorandum on 14 types of objectionable programming (March). Unable to buyhis 9
Appendix A A Short Chronology of American Broadcasting
755
patents, RCA signs television patent license agreement with Farnsworth. NBC starts regular television programming with opening of New York World’s Fair (April). New NAB code goes into effect: disallows liquor advertising or paid controversial ads, andlimits all advertising to 10 percent of each hour (July). Facing rising pressure from ASCAP forhigher royalties, NAB establishes its own musiclicensing organization, Broadcast Music, Incorporated (BM) [September). * BBC suspends television operations for the duration of World War I1 (September). 1940 FCC gives go-ahead for limited commercial television as of September, using 441-line standard (February),but rescinds order after RCA pushes receiver sales against FCC desires and understandings [March). * Radio correspondents provide regular reports from Europeat war, especially eye-witness accounts from Murrow in London, Shirer in Berlin and France. CBS demonstrates its color television system-a mixture of electronic and mechanical methods (August). * Justice Department prepares antitrust action against ASCAP, BMI, and radio networks for music monopoly (December); settled by consent degree in February 1941. 1941 Commercial FM radio operations are authorized (January). FCC issues Maflower decision, which is understood to eliminate licensee editorializing (January). Nearly all stations change frequencies, many only slightly, as theNorth American Regional Broadcasting Agreement (NARBA) goes into effect between the United States, Canada, Mexico, and Cuba (March). FCC issues Chain Broadcasting Report with eight important recommendations; most upsetting to the industry is requirement thatNBC give up either Red or Blue network (May). FCC approves commercial television with 525-line standard and FM sound-effective July 1. CBS and NBC stations operate stations by the first day, FCC begins two and onehalf year investigation of press ownership of radio stations(August).
Radio Goes to War (1941-1945) 1941 Largest radio audience to date, estimated at 90 million, hears Roosevelt declare war. Amateur stations are closed down, andweather forecasts are limited for the duration (December). 1942 Wartime code bans man-on-the-street and ad-lib interviews, arid most quiz shows (January).FCC bans construction of new broadcasting stations in areas with primary (local) service (February) and freezes all station construction except for operations underway, to conserve war material. Receiver production is ended, andshellac, used in records, is sharply limited for civilian use (April). President Roosevelt creates Office ofWar Information (OWI) and names newsman Elmer Davis to head it (June). American Federation of Musicians, under new president Petrillo, announces no musicians will play for recording sessions-beginning of a long strike (August).
756
Appendix A A Short Chronology of American Broadcasting
1943 Supreme Court upholds FCC’s chain broadcasting regulations, forc-
ing NBC to shed onenetwork, forbidding exclusivity, and curtailing option time (May). Congressman Cox begins lengthy House investigation of the FCC (June). E. J. Noble purchases the Blue network from RCA for $8,000,000, and theFCC approves the transfer (October). 1944 FCC ends newspaper-broadcasting ownership investigation without drawing up new rules(January). Networks allow FM stations to carry AM programs without extra charge to sponsors (January). FCC holds major allocations hearings on spectrum above 30 MHz, concerned especially with future of FM and television (September-November). Networks sign with Petrillo’s AFM, on his terms, after an appeal from President Roosevelt fails to end strike. Two-and-a-half-year-old recording ban is ended (November). 1945 Blue Network becomes American Broadcasting Company (April). FCC delivers television allocation of 13 VHF channels (May) and FM service is moved up to 88-108 MHz band (June). The war ends, and the FCC begins to process backed-up station applications; receiver production is resumed: O W is abolished (August): amateur bands are released to civilians (November).
Era of Great Change (1945-1952) 1946 FCC’s “Blue Book” makes strongest statement yet on licensee’s responsibility in public service programming (March). * BBC reestablishes television broadcasting with 405-line prewar standards (June). RCA publicly demonstrates all-electronic system of color television (November). 1947 Strong anticommunist attacks on broadcasting include Counterattack newsletter and early blacklisting. Zenith announces Phone-vision system of pay-TV by wire, setting off two decades of experimentation and intense debate (July). Over a period of several months, interconnection of television stations by both microwave and coaxial cable develops, connecting stations in both the East and Midwest (late 1947 through Spring 1948). 1948 AFM lifts ban (begun in late 1945) on musicians playing for television or on A”FM simulcast programs (March). Broadcast and nonbroadcast sharing of television channels is eliminated, but channel1 deleted for other uses (May). Scientists at Bell Telephone Labs demonstrate transistor (June). NBC and, CBS announce plans formajor televisionnetwork expansion by 1950. First ABC television station goes on air in New York (August). Midwestern AT&T coaxial cable network opens, linking existing stations from St. Louis to Buffalo (September). After hearings on allocations (June-September), FCC orders Freeze on stations license applications for television, while it attempts to solve problems of interference and sufficient spectrum space (September).
Appendix A A
Short Chronology of AmericanBroadcasting
757
1949 Eastern and midwestern television networks are connected, linking 32 stations in 14 cities. First televising of presidential inaugural (January).
FCC releases report which allows stations to take editorial positions if they treat opposing views fairly-later seen as birth of Fairness Doctrine (June). FCC disallows (after October 1) certain giveaway shows with jackpots as violations of the U.S. Criminal Code prohibition on lotteries. FCC begins television hearings, initially concentrating on choice of color system (September). 1950 FCC allowsZenith to testPhonevision for 90 days in Chicago (February). Editors of Counterattack issue Red Channels, which causes more blacklisting in radio and television (June). Korean War leads to restrictions on civilian construction, including radio and television sets, although reduced production continues. FCC approves CBS mechanicalelectronic color system (October). 1951 Televised sessions of hearings on crime by Senate committee catapult Tennessee’s Senator Kefauver into prominence (January). ABC and United Paramount Theaters merge, with WT’s Leonard Goldensen becoming top man atnetwork (April). First coast-to-coast live television broadcast features President Truman’s address to Japanese peace treaty conference in SanFrancisco,uses AT&T microwave facilitiesthat cost $40,000,000to build (September). Manufacture of color television equipment is stopped for duration of Korean War (October). 1952 NBC begins the Today show (January). FCC issues Sixth Report and Order on television allocation, ending Freeze and opening UHF band to television broadcasting (April). First major amendments to Communications Act of 1934 become law; allowFCC to issue cease and desist orders as well as revoke licenses; require lower time charges for political ads (July). First commercial UHF station takes to the air in Oregon (September). Bing Crosby Enterprises demonstrates magnetic videotape recording machines to replace kinescopes (films) previously used to record television programs (December).
The Age of Television (1952-1960) 1953 After two-year legal wrangle, required because station licenses were
involved, FCC approves merger ofUPT and ABC (January). RCA and then NTSC ask FCC to adopt RCA compatible system of electronic color; and even CBS announces it will telecast with the system in the fall (June-July); FCC approves (December). Armstrong demonstrates multiplexing system for FM-the basis of later storecasting and stereo operations (October). FCC extends license period of television stations from one to three years, and limits ownership of stations for single owner to five television (later extended to seven with addition of two UHF), seven AM, and seven FM stations (November).
758
AppendixAA
Short Chronology of American Broadcasting
1954 ABC and Disney studios sign a long-term contract, which generates the famous Disneyland and greatly strengthens D C ’ s competitive position (April). Weeks of televised Army-McCarthy hearings mark thebeginning of the downfall of Senator Joseph McCarthy. 1955 President Eisenhower opensnews conference to first television newsfilm coverage,with films shown later after both White House approval and editing (January). House and Senate Commerce committees issue reports critical of network monopolies, calling for major changes in regulation (February). * FCC authorizes Subsidiary Communications Authorizations (SCAs) for FM stations to transmit music into stores and other business places, providing badly needed source of FM station income (March). NBC announces Monitor weekend radio network program, which lasts into 1975. DuMont television network switches over to film presentations with live coverage only for special events and sports. Network disappears altogether in September. First major congressional investigation of television effects on juvenile delinquency ends, calling for FCC program censorship, stronger NAB code, and other changes (August). Commercial television starts in England (September). 1956 Major film companies sell rights to “post”48” films for television showing(January). Ampexdemonstratessuccessful black-and-white videotape recorder (April). 1957 Major test of pay-TV begins in Bartlesville, Oklahoma (September). FCC study of television network development and practices recommends more than 30 rules changes (October). 1958 FCC Commissioner Mack resigns for accepting bribes to vote for station applicant in the Miami channel 10 case (March). FCC decides that regulation of cable television is beyond itsauthority because that service is not broadcasting (April). United Press and International News Service merge to form UPI. (June). Rumors of television quiz show rigging turn out to be true-programs are taken off the air, and investigation begins in New York (summer). 1959 In amending Section 315 of 1934 Act, exempting newscasts from equal opportunity for political candidate roles, Congress appears to give statutory backing to Fairness Doctrine. Mutual network undergoes several changes of control to reduce financial pressures. At congressional hearings, former quiz show contestants admit complicity in rigging process (October-November). To improve its image, industry forms Television Information Office, surveys audience reaction to the quiz and other scandals; networks promise more prime-time news programming. 1960 Attorney General Rogers says FCC and FTC have power to regulate payola and plugola problems, as well as quiz show rigging (January). FCC Chairman Doerfer resigns under fire for failing to maintain armslength distance from broadcastershe is regulating (March). * Daytime serials
Appendix A
A Short Chronology of AmericanBroadcasting
759
and most other radio network entertainment programming ends, leaving news and special events coverage. In first basic programming statement since 1946 “Blue Book,” FCC outlines the responsibilities of licensees in public interest programming. Congress suspends Section 315 for the 1960 election of national officials, paving way for four televised “Great Debates” between Nixon and Kennedy. Those debates, especially first one, probably change course of election. Program of airborne television transmission for educational usein theMidwest (MPATI)begins after 15 years of plans and experiments (December).
Accommodation and Adiustment (1961-1977) 1961 Newton Minow is named FCC chairman by President Kennedy
(January). He sets tone for commission by depicting television as a “vast wasteland” at NAB meeting (May). First presidential news conference covered live by radio and television (January). Edward R. Murrow leaves CBS to head USIA (January). FCC approves standards for FM stereo broadcasting (April), and stationsbegin using new means of transmission (June). First man-in-space television special coverage is for suborbital flight of Alan Shepard (May). FCC ends a 16-year controversy by breaking down 13 of 25 Class I-A (clear channel) frequencies to allow more local AM stations (September). 1962 John Henry Faulkwinslibeljudgment of $3.5 million, helping to end blacklisting era (June). Government begins financial grants to help support construction andfacilities of educational television stations. Telstar, first means of relaying television signals by space satellite, is launched into orbit for AT&Tby NASA (July). Comsat, the Communications Satellite Corporation, is formed after long congressional hearings (September). Legislation is passed calling for all new television sets by early 1964 to haveUHF reception capability (September). 1963 CBS and NBC begin half-houreveningnewscasts, up from 15-minute length (September). Television covers four days following assassination of President Kennedy (November). 1964 Release of Surgeon General’s report on dangers of smoking increases pressures for cigarette advertising limitation (January). Supreme Court, in New York ’Ifmes v. Sullivan case, makes conviction for libel unlikely in reporting of public officials’ duties and character (March). Networks and wire services set up election reporting service to pool results in upcoming fall election (June). Previous election campaign had brought complaints over television ads. Subscription Television begins to provide pay-TV to homes in California cities (July), but referendum-later held to have been unconstitutional-rejects S W , and forces system to close down (November).
760
Appendix A A Short Chronology of AmericanBroadcasting
1965 First commercial synchronous communications satellite, Early Bird,
goes into orbit and allows constant Europe-to-United States television (April). 1966 FCC takes over regulation of cable systems, calling for carriage of all local signals, same-day nonduplication, limited distant signal importation (February). Television coverage of Vietnam War expands as fighting increases and United States becomes increasingly embroiled. Court of Appeals for the District of Columbia says in WLBT case that audiences of stations have a right to be heard in FCC legal proceedings (March). ABC applies to FCC for permission to merge with ITT (April), FCC twice approves on splitvotes, but Justice Department pressure kills merger at end of 1967. Overmyer Network is announced as a fourth commercial chain of television stations, claiming 85 stations to take a two-hour nightly feed from Las Vegas (October). 1967 ThankstoFordFoundationgrant, NET offers first coast-tocoast network interconnected educational telecasts (January). That same month, Carnegie Commission reportoffers many recommendations, helping to start era of public television and radio. * Overmyer (now named United) Network goes on the air (May) but soon stops operations due to lack of funds (June). FCC, in first commercial application of Fairness Doctrine, announces that anti-smoking spots are needed to balance cigarette ads (June). ABC announces (August) and gets FCC approval for (September) plan for four radio networks operating on a single telephone interconnection line, each network cater to to a different type of radio program format. * Corporation for Public Broadcasting is created by Public Broadcasting Act of 1967, based on Carnegie Commission recommendations (November). 1968 ABC splits radio operation into four separate networks (January). Heavy coverage of aftermath of Martin Luther King, Jr., assassination shows major riots in some cities, helps to prevent others (April). Two months later television covers shooting and funeral of Senator Robert Kennedy (June). Supreme Court, in Southwestern Cable Co. case, upholds FCC regulatory authority over all cable television systems (June). Television networks receive many complaints over coverage of violence in Chicago streets during Democratic convention (August). President’s Commission on Communication Policy issues report, sees cable supplementing broadcasting services (December). 1969 FCC resolves long-controversial status of channel 5 in Boston bylifting license from Heruld-fluveler newspaper and awarding it to local group with no other media holdings (January). Senator Pastore requests Surgeon General to investigate effects of television violence on viewers, especially children (March). Public Broadcasting Service is formed to operate public television station interconnection (April). In Red Lion decision, Supreme Court upholds FCC’s Fairness Doctrine noting that needs and
AppendixAA
Short Chronology of AmericanBroadcasting
761
rights of viewers to diversity of views are more important than rights of broadcasters (June). Apollo 11mission puts man on the moon, andtelevision takes the story around theworld, with live television from surface of moon (July). FCC requires program origination by cable systems with more than 3,500 subscribers, but rule not effectively enforced (October). Sesame Street, product of Children’s Television Workshop, begins daily telecasts on public television stations and quickly wins critical and children’s acclaim. In speech at Des Moines, Iowa, Vice President Agnew attacks television news and its perceived bias. This marks beginning of Nixon administration’s antimedia campaign (November). 1970 FCC adopts rule to disallow AM-FM-TV or radio-television station ownership combinations in the same market in the future, while grandfathering (allowing to stand) existing combinations (March). FCC limits network prime-time television programming to three hours a night-the Prime Time AccessRule, or PTAR-and effectively eliminates network control of syndicated programming (May). * Television UHF channels 70-83 inclusive reallocated to nonbroadcast (mostly land mobile) uses (May). President Nixon names Clay Whitehead as first director of new Office of Telecommunications Policy (June). 1971 Ban on radio-television advertising of cigarettes begins after Congress passes restrictive legislation (January). * Selling of the Pentagon documentary on CBS creates wrangle between Congress and networks, and near contempt citation for CBS’ Stanton, over television documentary and general news methods (January). FCC releases rules for license applicants to follow, defining community ascertainment process (March)-seen by some asexpanding “public access” movement in broadcasting, now five years old. 1972 Surgeon General’s committee reporton childrenand television viewing suggests there may be a causal relationship between video violence and some children’s subsequent actions (January). FCC issues definitive rules for cable television, allowing but restricting scope of cable in top 100 markets (February). Justice Department files antitrust suit against three television networks, charging excessive control of programming and advertising (April). Administration-sponsored reorganization of public broadcasting begins, stressing local stations rather than national servicepartly as a result of President Nixon’s dislike of independent public affairs programming on PBS. 1973 FCC begins “re-regulation,” or lessening of someadministrative requirements, mainly for local radio stations. Supreme Court rules, in BEM and DNC cases, that broadcasters are not required to sell time for editorial advertisements-a setback for advocates of greater media access (May). Senate (Ervin) Watergate Committee hearings are carried on television for several weeks and help focus national attention on the scandal (spring and summer).
762
Appendix A
A Short Chronology o f AmericanBroadcasting
1974 Westar, first U.S. domestic communications satellite, is launched.
Television covers impeachment hearings against Nixon in first video coverage of House (July).Television covers the last days of Nixon administration, includingfirst presidential resignation speech (August). 1975 FCC adopts rule restricting future newspaper ownership of local market radio stations (January).Expansion of Citizens Bandradio begins to create administrative headache for FCCand interference in other services, including broadcasting. Electronic newsgathering-ENG, or use of videotape and live portable television cameras rather than film-expands rapidly among local stations. Beginning of substantial pay-cable television operations, including Home Box Office (HBO). NBC radio network drops Monitor and other programs and begins firstnational full-time radio news service (June). FCC interprets Section 315 to add more exemptions (September). RCA Chairman Robert Sarnoff, son of David Sarnoff,is forced to resign byboard of directors because of RCA’s financial performance (November). 1976 After nearlytwodecades of discussion, Congress passes a new copyright law to replace the 1909 act. Among many other things, it requires cable operators carrying distant signals to pay fees to broadcasters (October). For the first time since 1960,presidential candidates “debate” one another (October). In a sudden move, CBS fires Arthur Taylor as president, naming John Backe as successor and likely eventual replacement for network founder William Paley, who announces his own plans to step down early in 1977 (October). Federal judge in Los Angeles finds “Family Viewing Time” standard of networks and the National Association of Broadcasters TV Code to be illegal, partially because of findings of undue FCC pressure on the industryto adopt this self-regulation move. Decision places effect and impact of entire NAB radio and television code structure in doubt (November). House Communications Subcommittee announces plans for total revision of the Communications Act of 1934 (December).
Challenge and Competition (1977-1988) 1977 Alex Haley’s Roots is serialized in ABC miniseries with huge audi-
ence and great impact (January). NBC ends experiment with an all-news radio network service as too few stations affiliate (May). Congress begins an unsuccessful five-year effort to rewrite the Communications Act (May). The first two STV (over-the-air pay-TV) stations air. OTP is disbanded, with most functions going to the Department of Commerce (October). “Qube” interactive cable experiment begins (it will end in 1984) in Columbus, Ohio (December). 1978 New copyright law, the first complete revision since 1909,goes into effect (January). Showtime begins satellite distribution and becomes HBO’s chief rival (March). FCC approves distress sale and tax certificate
Appendix AA
Short Chronology of American Broadcasting
763
policies to increase minority station ownership (May). First of “rewrites” of 1934 act introduced in House (June). Second Supreme Court Pacifica decision upholds FCC concern over indecent and obscene programming (June). Magnavox markets first videodiscs. 1979 “Carnegie 11” report urges vast infusion of federal funds into public broadcasting (January]. House of Representatives sessions are regularly shown by C-SPAN (March). First station is transferred to a minority group under “distress sale” policy ofFCC (April). * FTC staff recommends elimination of advertising on children’s television while an FCC task force calls for enforcement of program quotas for young children’s fare (November). FM surpasses AM in size of total national radio audience. 1980 NBC and ABC begin to offer closed captions for the deaf on some programs (March). Cable News Network (CNN) begins 24-hour news service (June). FCC drops most of its remaining cable television rules (July). Third FCC broadcast network inquiry completed (December). COMSAT announces extensive DBS plans, beginning two-year push for authorization (December). “Premiere” pay-cable network stopped by Justice Department’s antitrust action (December). 1981 Complicated news day as Ronald Reagan is sworn in as President and U.S. embassy hostages return from Iran (January). HDTV is first demonstrated in the United States. FCC begins a “freeze” on new LPTV applications (April). Mark Fowler becomes chairman of FCC and implements strong deregulation policy (May]. Radio licensesextended to seven years, television to five in congressional budget bill (August). 1982 Radio deregulation drops several rules for commercial stations (March). FCC formally approves new low-power television service rules (March). NAB drops its self-regulatory codes in a consent decree with the Justice Department (March). Ten-year review of television violence studies released by the National Institute of Mental Health finds clear connection between what is viewed and subsequent actions. 1983 Final episode of M*A*S*H is most-watched program in television history (February). FCC is changed from permanent agency to one requiring reauthorization every two years. * NPR experiences financial crisis due to overexpansion and loose management. FCC creates MMDS or “wireless cable” service (May). Compact discs first introduced to consumer market. 1984 Supreme Court issues “Betamax” decision allowing home taping of off-air signals (January). As part of its settlement of a government antitrust suit, AT&T divests its local operating companies (January]. Congress passes Cable Communications Policy Act. Radio deregulation is expanded to cover television and public broadcasting (July), * United Satellite Communications, Inc. begins brief DBS operation using a Canadian satellite but closes up early in 1985. RCA pulls out of videodisc market
764
Appendix A
A Short Chronology of American Broadcasting
after a half-billion-dollar loss. National candidates debate election issues on television (September-October). 1985 Seventeen-hour-long “Live Aid” concert is broadcast by satellite from Philadelphia and London to 100 countries in famine fund-raiser (July). Home Shopping Network begins national service-first of a host of competing services (July). Capital Cities announces it will buy ABC network for $3.5 billion to create Capital Cities/ABC-first network to change hands since 1953 (November). First pay-per-view cable services air (November). GE announces plans to take over RCA and its NBC networks (December). * NBC is first of commercial television networks to begin using satellite rather than land-line distribution. FCC increases number of stations one entity can own from 2 1 (7 AM-7 F ” 7 TV) to 36 (12-12-12). 1986
HBO is first cable service to scramble its signals to limit piracy (January). Knight-Ridder and Times Mirror close down their videotex marketing efforts begun in 1983-1984with a combined $80 million loss (March). NBC wins seasonal ratings race for first time in television history (April). * Coverage by radio and television of Senate proceedings begins (June). Laurence Tisch takes effective control of CBS (September). Fox Broadcasting Company airs &st show on way to becoming a fourth network (October). NBC changes hands as RCA is bought (for $6.4 billion) by General Electric (June-December). 1987 Space shuttle Challenger explosion is covered by television (January). NBC Radio Network is sold to Westwood One (July). FCC drops Fairness Doctrine (August). People meters are first used to provide Nielsen ratings (September). Cable and VCR penetration both pass the 50 percent mark. FCC’s attempt to retain must-carry rules for cable systems is overturned in court (December). 1988 CBS sells Columbia Records, world’s largest record company, to Sony. Twenty-two-week writer’s strike, ending in August, delays fall television season. Rupert Murdoch buys TV Guide (August). FCC decides that any future broadcast HDTV system must be compatible with existing receivers and will have to fit within present broadcast spectrum allocation (September). Ending morethan 65 years of history, WNBC (AM), the former AT&Tstation WEN,is sold and becomes an all-sports outlet. National candidates debate election issues on television (September-October). There are more than 12,000 radio and television stations on theair.
A New Marketplace (1989-2001) 1989 Fall of communism in Eastern Europe reported and probably hastened by widespread television coverage. * Time Inc. and Warner Communications merge to become world’s largest entertainment company. Half
AppendixAA
Short Chronology of AmericanBroadcasting
765
of American homes now receive television service by means of cable. Sony buys film and television studio Columbia Pictures Entertainment for $3.4 billion (November). 1990 Potential system of digital HDTV is first announced and demonstrated using computer modeling (June). * Sale of first consumer DAT recorders. Congress passes Children’s Television Act mandating a few hours a week of programs directed toward younger viewers as well as limits on advertising in suchprograms (first legal limit on broadcast advertising time). 1991 GulfWar widely covered with livebroadcasts,thoughhighly restricted by military (January-February). Television and international radio cover short-lived coup in Soviet Union as leadership stays in touch with events bytuning to BBC and Radio Liberty broadcasts (August). Digital HDTV lab testing begun in U.S. (April). Matsushita (Panasonic) buys MCA for $6.9 billion. 1992 First over-the-air digital HDTV experimental transmissions (March). Third party candidate Ross Perot spices up presidential election coverage, but political conventions no longer fully covered with live TV (JulyAugust). * FCC allows ownership of up to 18 AM and 18 FM stations nation-wide, and up to two of each in major markets. Digital compact cassettes (DCC) first marketed. Radio Broadcast Data Service (RDS) first introduced in U.S. Arbitron closes down its network television ratings service (September). Cable Act, passed over President Bush’s veto, reinstates many regulations including “must carry” rules (October). 1993 NBC admits rigging a crash test of a truck for a news program and pays damages to General Motors. Major HDTV system players merge into so-called “Grand Alliance” to develop a single system (May). FCC lifts the financial interest and syndication rules, freeing networks to become more active in entertainment programming. FCC adopts specific stereo AM technical standard after years of debate (November). 1994 Arbitron exits local television ratings leaving entire television market to Nielsen. * Hughes launches DirecTV, first American DBS system. ITU substantially reorganized for first time in nearly a half century. Aided by winning NFL television rights, Fox network gains a number of big-market affiliates from the older three networks. Viacom buys Paramount Communications for $10 billion and later purchases Blockbuster video rental chain for $8 billion. FCC increases national ownership limit on radio to 20 AM and 20 FM stations, Inception of direct broadcast satellite services in the U.S. 1995 Coast Guard ceaseslistening for 500 kHz Morse Code distress signals. World Wide Web begins operation on theInternet. Congress terminates FCC minority tax certificate program (March). Inception of Universal Paramount Network (UPN) and Warner Brothers Network (WN). FCC
766
Appendix A A Short Chronology of AmericanBroadcasting
repeals prime-time accessrule (PTAR). Disney buys Capital Cities/ABC for $19 billion (August). Infinity Broadcasting pays $1.7million in FCC fines because of indecent broadcasts by Howard Stern (September). National obsession with 0. J. Simpson murder case and trial, with “not-guilty” verdict becoming mostwatched moment in television history (October). Seagram buys MCA from Matsushita and renames it “Universal Studios”. Westinghouse buys CBS network for $5.7 billion and takes on the network‘s name (November). * Time Warner buys Turner Communications, including CNN, for $7.6billion. DVD technical standard selected. 1996 Telecommunications Act of 1996 mandates V-Chips in television receivers and deregulates radio ownership, permitting one licensee to control hundreds of stations including up to eight in the largest cities, and extends broadcast licensees to eight years (February). Communications Decency Act portion of 1996 Act challenged, and later overturned by courts as CBS (Westinghouse) buys Infinity Broadcasting for unconstitutional. $4.7 billion, combining nation’s two largest radio station operators (June). AOL introduces flat Internet pricing increasing use of World Wide Web which, in turn, apparently cuts into television audiences. FCC approves “Grand Alliance” HDTV technical standards (December). 1997 Under strong politicalpressure, broadcast industry reluctantly adopts a complex program content rating system tied to V-Chips to help viewers concerned about effects of sex, violence, etc. on their children to select programs (January). FCC adopts final rules for digital television and sets 2006 as deadline for end of NTSC analog services (April). Confusing HDTV’s future, ABC and Sinclair announce they plan to use digital technology for multiple channels, not high-definition service (August). Death of Britain’s Princess Diana creates world-wide mourning covered by television (August-September). First DVD players sold in U.S. Westinghouse sheds almost all business activities except CBS. 1998 FCC reallocates television channels 60-69to eventual non-broadcast use (January). Impeachment trial of President Clinton covered by television from floor of U.S. Senate (February). AT&T announces plansto take over the largest multiple cable system operator, TCI (June). Inception of American HDTV transmissions in largest markets (November). FCC reorganizes and increases the numberof its operating bureaus, adding units for wireless and international telecommunication. Most of FCC’s EEO rules are found unconstitutional. Hughes Corp, operator of DirectTV satellite service, takes over two smaller competitors-US Satellite Broadcasting and then Primestar (December). 1999 Congress allows DBS systems to carry localbroadcastsignals. FCC ceases cable rate regulation in accord with 1996 Act (March). With announced takeover of Media One, AT&T becomes largest U.S. operator of cable television systems (May). Viacom, already controlling UPN, announces plans to take over CBS (September). Who Wants to Be a Millionaire?returns big-money quiz shows to prime time after four decades. 9
Appendix A A Short Chronology of AmericanBroadcasting
767
Unhappy with NAB stand favoring limit on television station ownership, Fox and later CBS and NBC drop their memberships in the trade association, weakening its traditional “umbrella” role for the industry. “Magazine” news programs expand to fill large parts of network prime-time schedules. 2000 AOL moves to acquire TimeWarner for $135 billion in largest takeover in history (January). * Iridium international mobile satellite system closes down with $5 billion loss; reopens with new owners and lower prices (March). FCC authorizes low power FM outlets (LPFM), over industry (including NPR] opposition; authorization both challenged in courts and quickly quashed by Congress chiefly on grounds that LPFM would cause interference to existing FM stations. Celebrity and spectacle fill airwaves again with death of John F. Kennedy, Jr. (July). Tape-delayed Olympic games in Australia fail to attract expected audiences (August). Brief elimination of ABC network signal by Time-Warner cable systems (including New York City) during ratings sweep week focuses public and FCC attention on access to cable systems. “Reality” TV programs, many originating in Europe, spread through network prime-time schedule, including top-rated Survivor and Big Brother. * Clear Channel Communications buys AMFM Inc. for $16.6 billion, creating nation’s largest owner of radio stations (initially about 900). Political news coverage diminishes until cliff-hanger of Presidential election night brings back the audience (November]. Television provides blanket coverage of month-long Florida recount and legal battle over election results, ending with SupremeCourt decision (December). 2001 President George W. Bush names Michael Powell new chair of FCC and latter promises a strongly deregulatory regime (February). Arguing high station costs and the lack of HDTV receivers in the handsof listeners, television industry asks FCC to delay deadline for conversion to HDTV operation (May). Who Wants tobe Q Millionare? ratings drop after program is overexposed with multiple broadcasts each week-network trims schedule to but twice a week (June). The BBC and Radio Switzerland announce that short-wave broadcasts to North America will end, but programs will continue over cablenetworks and local stations in some countries and over the Internet worldwide. Comcast bids $56.5 billion for AT&TBroadband which, if successful, would make Comcast the nation’s largest MS0 (July), Thousands of radio stations providing their programs and related sewices by audio streaming over the World Wide Web. * Fox Family Channel sold by Murdoch to Disney-ABC, giving Murdoch funds to attempt acquisition of Direc TV for $5.3 billion and adding to his DBS empire (July). CNN introduces “younger appeal” look to its Headline News (attractive faces, busy graphics) and is criticized widely for cheapening both appearance and content (August). * Four days of continuous television, cable and radio coverage supply information to the nation andreflect its horror, as terrorists hijack four airliners and destroy the World Trade Center in New York, and damage the Pentagon, killing thousands (September).
This Page Intentionally Left Blank
This glossary has an essay form in preference to the typical circular set of definitions. Most terms deal with technology, although some deal with business and economics or broadcast programming. The technical basis for broadcasting is a subject for a book in itself, but it isalso important as a factor in the development of electrical-electronic communication, together with politics, economics, the arts, and the social structure. Indeed, technology is less flexible than but fully intertwined with these other factors. Sometimes we canfind a way around apparenttechnical or physical barriers-for example, by sacrificing quantity for speed, or by accepting less-than-perfect reproductions-but we can never ignore them. Most words not found in this glossary can be readily found in a dictionary or are explained in context in the text. When a term has morethan one meaning, the one most pertinent to broadcasting or other electronic media is used. We have tried to limit the brief explanations that follow to specialized terms and their interrelationships. Internal cross-references are supplied except where they would be unduly duplicative or easily found as, for example, within the entries for Broadcasting and Broadcast Media. Terms that are mentioned in an entry but which are discussed in fuller scope elsewhere in this glossary are printed in boldface, but internalcrossreferences are listed as (see Such-and-so). The mostefficient way to absorb this technical terminology rapidly may be to read the entireglossary as if it were a mini-textbook.
AJ3C American Broadcasting Company, originally Blue Network, Inc., later American Broadcasting-Paramount Theaters and Capitol CitiesABC, purchased by Disney in 1995.See Network. ActorsEquity See Unions. Aerial See Antenna. af (audio frequency) See Receiver. Affiliation, Affiliates See Network and Ownership. AFM (American Federation of Musicians) See Unions. AFTRA (American Federation of Television and Radio Artists) See Unions. AGVA (American Guild of Variety Artists) See Unions. Allocation, Assignment, Allotment, Licensing Because all radio transmissions can cause interference in the form of manmade static or degradation 770
Appendix B Glossary
771
of signal over a greater distance than they can give service, and since different frequencies (see Waves) have different characteristics, the FCC must apportion certain bands of frequencies or channels to a given service, such as television broadcasting or ship-to-shore or amateur radio-allocation; divide an allocated frequency band to reserve designated frequencies or sub-bands for use by certain users or in specified geographical areasassignment; and authorize a given user to operate a radio transmitter on a discrete frequency at a particular location or locations under specified conditions-licensing. In recent years, the FCC and NTIA (see below) often have used the word allotmentrather than assignment for the second stage (and sometimes the first stage) of this process, and NTIA has added to the confusion by using the word assignment for what the FCC would call licensing. (For a period in the 1950s and 1960s, the FCC itself confused “allocation” and “assignment” in some publicdocuments.) Because federal government agencies use about half the radio spectrum, allocation, which is circumscribed worldwide by international agreements and treaties (see ITU), and assignment for these stations isadministered by theInterdepartment Radio Advisory Committee (IRAC), now a part of the National Telecommunications and Information Administration of the US. Department of Commerce. The FCC standards for granting a broadcast station license involve citizenship, character, financing, and technical competence or facilities. Before a license is issued, aconstruction permit (CP)gives the potential licensee authority to build thestation Licenses are granted for distinct periods-three years until the 1980s, then five years (television) or seven (radio), now (since 1996) eight years for both broadcasting services. Licenses may be-but rarely arerevoked for cause. Sometimes, when the FCC has many applications for the same channel, it holds comparative hearings. In recent years, licenses in some services have been granted on the basis of auctions, where the prospective licensees offer money to the government, or lotteries, in which the luckiest applicant wins the right to use a particular frequency. When unexpected demand or unexpected technical difficulties arise with a given service or allocation to it, the FCC institutes a freeze on new licenses until the problem is resolved. In choosing between competing applicants-particularly between different services applying for the Same band of frequencies, as in the recurrent conflict between television broadcasting and land mobile for the UHF television band-the FCC must make its decision in light of the touchstone criterion set forth in the Communications Act: the publicinterest, convenience, and/or necessiv. Alternating Currents (AC) See Vacuum Tube. Alternators See Transmitter. Amateur (also known as a ham) An individual interested in radio technique solely with a personal aim andwithout pecuniary interest, characterized by self-training and technical investigations. To become an amateur
Appendix B Glossary
ments for Citiz ing on their class of ski1 of frequencies, some permitting very niques forbidden to CBers, Many arn ent. Amateurs frequently provide disaster; their spectacular b r e ~ t ~ o u g in h s technological development contributed particularly to early broadcast~n services as trained radio operato througho~tthe spectrum permit around the world. Amat
three types of channels (clear, regional, local): tations on clear ch ,000 watts (1%of all unlimited time stations on clear or regional channels, using power from 250 watts to 50, 000 watts (35% of all AM stations) C s m a ~stations l operating on local channels using power from 2 atts (21% of all AM stations) -only stations, or those operating with less than 25 power at night, on either clear or regional channels. must operate so as not to interfere with any Glass A or rior to the 199os, with the standard broadcast (A kHz and ending at 1605 kHz, 107 channels were divi gories with five classes of stations operating on t ~ f foperates ~ ~ one on which only one ~ o ~ i s~ff~io~ sand miles, although a number of low to medium
Appendix El Glossary
may share it with the dominant station during the day, The United States, exico, and other North American countries are signatories to the ~ A ) , in North American egional Broadcasting Agreement ( ~ A ~ negotiated 1937 and revised in 1950. Each country has channels on which one of its stations is dominant. The treaty also provides that each dominant station use at least 50,000 watts of power; in the United States, 5 upper limit because of a “Sense of the Senate” resolution i aves and and width.) The following are the ways in which standard broadcast (AM) channels were long classified in the United States: -one dominant station in most instances. 24 Class 1A-one U.S. dominant station on each, with only 1-7 other, lower power stations sharing the channel by day and none by night. 1 7 -dominant station in Canada, Mexico, Cuba, etc., may be used by some U S lower power stations by day. 19 Class 1B-two or, in some cases, more stations sharing each channel at night, with from 1to 40 or more Class 11U.S. stations and others in other countries sharing the channel during the day. s (Class 111)-each generally used by from 20 to 70 or more stations spaced several hundred miles apart, using 5 to 5 of power. s (Class 1V)-each generally used by 15 er (250 watts at night, 1 kw during spaced only a few tens of miles apart so that their tower lights sometimes can be seen farther than the signal reaches
Channels from 540 through 1,600 kHz. Since each channel is 10 k wide, the total standard broadcast band was from 5 3 5 through 1,605 kHz. Additional channels were added between 1,605 and z after a 1988 international agreement extended the band to 1705 kHz, which made available 10 additional regional channels. However, in 1997, the FCC decided instead to move some existing stations to the new channels in order to reduce interference. Although the above classifications are still in use, the FCC also classifies stations from A (the most privileges) to D (the least), depending on the maximum power and hours of operation permitted (see above).
See Receiver and Vacuum Tube. See Modulation A metallic device used for the sending and receiving en in the form of a tower or series of towers but frequently a horizontal length of wire ften a ~ f f ~ a ~ ~ o l ei c~ e orc ~ dish, and sometimes a short vertical ~ ~ ~ . stj broadcasting stations use
774
Appendix B Glossary
vertical antennas; shipboard stations string antennas between the vessel’s masts. For efficiency,an antenna mustbear a relationship to the wavelength (see Waves) of the frequency for which it is designed, usually one half or one quarter wavelength. If it does not bear such a relationship, the antenna will not resonate properly to the transmitted or received wave. Hence, since wavelength increases as frequency diminishes, wefind that standard (AM) broadcast stations use their entire tower as an antenna, whereas FM broadcast stations, ona much higher frequency, have only a small antenna on top of the tower. The international radiotelegraph distress frequency, 500 H z , is very short to use asa wavelength for long-rangeuse over water,but itwas chosen many years ago because antennas for that frequency could fit physically between the masts of the typical oceangoing ship. AVHF television or FM receiving antenna isroughly five feetwide, whereas a UHF television antenna-of higher frequency and thus shorter wavelength-is less than two feet wide. At even higher frequencies, precisely aimed dishes from 2 to 100 feet in diameter are used to focus the extremely short waves precisely onto the antenna element located at their focal point. It is also possible to “aim” huge antenna arrays on the shortwave (high-frequency) band and even to construct a directional system with towers to reinforce and cancel one another so that a standard broadcast ( A M ) station causes minimal interference in one or more directions. Directional antenna (DA)installations are particularly useful for AM today, since the FCC has put a large number of stations on almost every channel. Transmitting antennas canbe oriented to supply horizontal, vertical, or circular polarization, the first two of which require similarly oriented receiving antennas for efficientreception. These techniques generally permit a reduction in interference so that stations on thesame frequency can be located closer together. AOL America OnLine, the largest Internet Service Provider (ISP). In 1999, bought Time Warner. See Ownership. AP (Associated Press) See News. ASCAP (American Society of Composers, Authors and Publishers) See Copyright. Aspect Ratio See Television Signals. Assignment See Allocation. ATM Asychronous(information) Transfer Mode (or Automatic Teller Machine, used in banking). AT&T American Telephone & Telegraph Company. See Bell System. ATV Advanced Television. See HDTV. Auctions See Allocation, Assignment, Allotment, Licensing. Audience See Communication. Audio Of or pertaining to audible sound, or its broadcasting, or recording and reproduction.
AppendixB Glossary
775
AudioStreaming See Internet. Audion See Vacuum Tube. Automation The totality of mechanical and electronic techniques and equipment used to achieve control of a process, equipment, or system. Many automated radio stations use automatic playing of music tapes and recorded commercials to cut down on use of engineers and other personnel. In its favor, automation cuts down the boring, repetitious, and complex tasks that often lead to on-air errors, particularly at station-break time (“panic periods”). More and more broadcast equipment, including transmitters, is operated by unattended automation. Most automated devices today are computer controlled. Bandwidth Thebandwidth,theamount of electromagnetic spectrum space efficiently occupied by a channel, depends on the amountof information that one wants to transmit. For example, a dot in Morse code takes an appreciable fraction of a second to form but requires only one “bit” of information: the telegraph key is momentarily depressed, and a brief spurt of electricity is sent down the line or to the transmitter. In a radiotelegraph system, such a signal requires only about 50 Hz of bandwidth. (A Hertz, or Hz, is equivalent to one cycle per second of alternating current; akiloHertz [kHz] to one thousand cycles per second, a megaHertz [MHz] to one million cycles per second. The terms kilocycle [kc] or megacycle [mc] were used until the 1960s, when it was internationally agreed to honor Heinrich Hertz, one of the earliest wireless experimenters.) Voice requires more: although your hi-fi system may state on itsnameplate that it handlesaudio frequencies from “20 to 20,000 Hz,” the human voice rarely requires more than 5,000 Hz (or 5 kiloHertz or 5 kHz) of bandwidth. In fact, the typical telephone system transmits only some 2,500 Hz, accounting for the tinny sound of a telephone conversation, which has lost its highest and lowest voice frequencies. This is all that is needed for maximum intelligibility, although radio stations using telephone lines for networking or picking up programs from remote locations have special equipment at both ends to extend the response of the telephone system to 5 kHz or, in the case of high-fidelity FM, as much as 15 kHz.A single picture on a television set, requiring only a tiny fraction of a second to form, contains a great deal of information-but requires 4.5 MHz (see Television Signals). High-definition television ( H D T V ) requires even more bandwidth,one of the reasons for its slow rate of adoption in many countries. If the necessary bandwidth isnot available, it is possible to transmit the information by sampling-the human eye and ear can “remember” through such processes as persistence of vision, which makes it possible to perceive motion in a series of still pictures on afilm-or by presenting the information in sequential rather than simultaneous form, as in television scanning. For example, some early experimenters with thetelegraph used a separate
776
Appendix B Glossary
wire circuit for each of the 26 letters of the alphabet, a logical although inefficient and expensive configuration. One of Morse’s and his associates’ contributions was the use of a code for sending the letters of the message one after the other as electrical pulses through one wire. (See also Television’s EarlyTechnological Development.) Base See Land Mobile. Bell System The former name for the American Telephone & Telegraph Company and itsoperating companies, Long Lines Department, and manufacturingarm (Western Electric). In 1984, the Bell System (familiarly known as Ma Bell) was broken up as the result of an antitrust agreement with the JusticeDepartment. While AT&T is still in the long-distance and computer fields, there are now four remaining independent “Baby Bells” or regional Bell operating companies (RBOC) out of seven: competition in long-distance carriage; manufacturing; new technologies such as integrated service digital networks (ISDNs),and so on, at all but thelevel of the local operating companies-which themselves want to get into cable television. AT&T itself has migrated into the cable television industry, and by 1999 was the largest MSO. Bell Atlantic, in addition to being the operating company in New England, New York, and the Middle Atlantic states, merged with GTE,which itself controlled roughly 10% of the nation’s telephones, and now goes by the name of Verizon. The RBOCs have been slowly obtaining permission to get into the long distance business, and some long distance carriers have been considering getting into the local telephone business. All have been concerned at the rapid growth of cable television, which also can supply voice and data (via the Internet) communication connections to thehome. Beta See Recordings. Binaural See Modulation. Blanking Interval See Television Signals. BMI (Broadcast Music, Inc.) See Copyright. Boosters See Satellite. Broadband A channel or channels able to carry a great deal of information. See Allocation, Assignment, Allotment, Licensing, and Bandwidth. Broadcasting A radiocommunication service of transmissions intended to be received directly by the general public. This service may include transmissions of sounds-radio broadcasting-or transmissions by television, be distinfacsimile, or other means. Broadcasting-to everyone-should guished from two-way or point-to-point communication, whichwas called narrowcasting in the early 1920s. Narrowcasting now refers to the programmer’s focus on a specific audience rather than on the public aaswhole or on a technical bandwidth limitation.(See Mass Communication.) BroadcastJournalism See News.
AppendixB Glossary
777
Broadcast Media In the United States, standard broadcast (AM) stations; frequency modulation (FM) stations, both commercial and noncommercial educational; television stations, both commercial and noncommercial educational; international (shortwave) stations; and experimental facsimile and other classes of service. Cable (also CATV or Community Antenna Television) Although the word “cable” was used after the mid-1850s to refer tounderwater telegraph lines, particularly between continents, and still has that connotation, since the 1950s it has been used as a shortened form of “cable television,” a system for distributing television (and sometimes radio) to homes in an area by means of wire rather than radiocommunication. Although systems from the late 1940s into the 1960s typically provided very few channels and were sometimes a cooperative or nonprofit public service, modern systems can provide from 35 to 120 or more channels and operate as profit-making businesses. In addition to providing interference-free reception of local stations, modern systems bring in signals from distant cities and sometimes provide local origination,government, educational, and public access channels and pay-cable service (seePay-TV). The “wired city” is a proposal that telecommunication services in theUnited States, including television and access to computers, will and should eventually be distributed by a wideband (great information-carrying capacity) cable directly to individual homes. Telephone companies and CATV operators both are eyeing this possibility of a new line of business. A CATV system typically consists of a head end-the location where signals from local stations or microwave (seeWaves) or satellite signals are picked up and amplified for retransmission through the system-several miles of trunk lineseither on poles or underground, and individual service drops or wired connections to individual subscribers, together with thevarious amplifiers and other devices that are needed to push thesignal through permits some signal transmission from the system. A two-way cable system the subscriber’s home back to the head end-for remote reading of utility meters, information as to whether a pay-cable or pay-TV signal is being used, and so forth. In the 1970s some experimentation and planning went on for interactive cable systems allowing a complete two-way voice and picture communication process. Most CATV systems charge subscribers a monthly fee foreach tier (such as basic or pay) of service. A trendis toward multiple system operators (MSOs),who own or operate cable systems in several communities. Most regulation of cable is through municipal franchising, although some states and the federal government (FCC)have promulgated some regulations and standards. In the 1980s, the FCC preempted much local regulation but did not install its own. In Europe, CATV would be called redifusion, a term applied to wired radio (particularly in the United Kingdom and the Soviet Union) as well as wired television. A master antenna system(MATV)typically serves only a single institution or
778
Appendix B Glossary
apartment house and rarely offers the auxiliary services mentioned above. An SMATV system is anMATV that receives its programming directly from a satellite dish. Call Letters Combinations of letters and sometimes numbers used to identify radio stationsover the air. Blocksof initial letters are assigned to a particular country, a practice started as a result of the London International Radiotelegraph Conference of 1912. The United States has been assigned all of the blocks with the initial lettersW, K and N, and much of A, although both A and N calls tend to be used mostly by the armed forces. Several N (for Navy) stations were used for early radio experimentation. In broadcasting, W isgenerally used east of the Mississippi and K west, with afew exceptions-usually older stations such as KYW, Philadelphia, and KDKA, Pittsburgh. An X following a number generally means an experimental station (9XM, 8XK, W2XR) with numbers in these early calls, and in amateur licenses, representing geographical districts. Some calls (FM in the early 1940s, LPTV today) used two digits to indicate the assigned channel. Although some pioneer stations still have three-letter call signs, most are four-letter, with many FM and television stations using those suffixes to create five- and six-letter calls (WNYC-TV). Stations may select their own call signs, within FCC guidelines and rules,leading to ingenious acronyms (WIOD, Miami = Wonderful Isle of Dreams; WGN, Chicago = World’s Greatest Newspaper, the original licensee the Chicago Zlibune) or associative meanings (KOP = Detroit Police Department; WILK = Wilkes-Barre, Pennsylvania). Camcorder See Recordings. Carrier Wave See Modulation and Transmitter. Cartridge See Recordings. Cassette See Recordings. Cathode See Vacuum Tube. CATV (community antenna television) See Cable. C-Band See Satellite. CBS (Columbia Broadcasting System) See Network. CCD (controlled capacitance discharge) See Television Camera Tubes. CD (compact disc) See Recordings. CD-ROM A “compact disc-read only memory’’ recording used primarily for computer information. Cellular Telephone See Land Mobile. ChainBroadcasting See Network. Channel A channel isan arbitrarily defined group of radio frequencies occupying a segment of the spectrum wide enough to permit operation of a station of a given service. For example, a channel for a standard (AM)
Appendix B Glossary
779
broadcasting station is 10 kHz wide, but one for a television broadcasting station is 600 times wider (6 MHz) in order to handle the additionalinformation of a picture. CharacterGenerator A device (often calleda Chyron, for apopular brand name) for inserting titles and otherwords and material into a television picture. Chicago School A laid-back approach to television variety and drama, as typified by much network programming from Chicago inthe 1950sand 1960s. Chip See VacuumTube. Circuit A pathway which ends at the same place it began. In electrical circuits, electricity flows from the source, through a switch or other control device and a load, and back to the source. The source may be a generator, a rotating machine that produces electricity when spinning; a battery, a chemical source of electricity; or, as in thecase of radio, a transmitter.The load may be a lamp, amotor, a heater, or something similar thatdoes a certain amount of work-produces light, motion, heat, and so on. If there is no load, there isalso no resistance-an electrical property measured in ohms related to the amountof energy (watts)the loadrequires to dowork; and, if a conducting path, a wire, connects one side of the source to the other without aload, we have a short-circuit, a condition demanding an infinite amount of electricity, which quickly results in a burned-out wire or generator-or fuse, if such a protection was inserted in the circuit. There are two basic electrical circuits: series, which is like a chain,through each linkof which all the current flows; and parallel, which requires both sides of the source to be linked to each load, as, for example, all outlets in a house musthave two wires connected to them. With a parallel circuit, one part of the load may be disconnected without having any effect on theothers; with aseries circuit, theremoval of any partof the circuit“breaks the chain.” Current is measured in amperes, calculated by dividing the voltage in the circuit (the amountof “pressure,” measured in volts) by the resistance. In a simpleelectrical telegraph circuit, the elements consist of batteries (the source), a key (a switch which can be manipulated on and off very rapidly), the wire connecting the sending andreceiving stations, arelay at the receiving station, and areturn wire to the other terminalof the battery. (Actually, since the ground will conduct electricity, in most cases the e& wire from itself is used for the return partof the circuit, with both the return the relay at the receiving station and one terminal from the battery at the sending station connected to it.) The relay, or sounder in early telegraph language, consists of a fine coil of wire wound around apiece of soft iron, the thinness of the wire providing some resistance in thecircuit. Electricity passing through the coil converts the iron core into an electromagnet, which is set up to attract or repulse anotherpiece of iron or steel that hitsit with an audible “click” and thenis pulled away by a spring as soon as the current is off. These clicks form the dots anddashes of Morse code.
780
Appendix B Glossary
A radio circuit is comparable: the source of electricity is atransmitter, which is “keyed” or “modulated” muchas the electrical telegraph circuit is keyed manually. However, instead of needing a wire conductor to connect sending and receiving stations, radiowaves can be sent throughthe atmosphere from an antenna connected to the transmitter and through the ground for a return. A circuit, in radio terms, generally if a little loosely applies to a two-way pathway using a particular frequency or channel. It may also refer to the arrangements of components within a transmitter, receiver, or other electronic device-the design of the unit, in electronic terms. This latter usage is derived from the fact that electrons, tiny units of energy, must travel in a circuitfrom source back to source to do anywork. Citizens Band (CB) A two-way usually mobile radio service that any member of the public (not just truckers) may use. Simple to operate, CB consists of low-power fixed and mobile stations intended for personal or business communication, radio signaling, control of remote devices, and almost anything else not prohibited. It differs from broadcasting in that it is a short-range, point-to-point service, and it differs from amateur radio in that amateurs have technical skills and use radio more as a hobby than for personal or business communication. CBers may not engage in technical experimentation. Some channels have been formally or informally assigned to special uses: channel 9 for emergencies, channel 19 for truckers. Citizens Band radio was established by the FCC in 1958 but grew slowly until the mid-1970s, when suddenly millions of units were sold, perhapssparked by the desire of motorists to avoid traffic police (“smokey”) enforcing speed limits during a gasoline shortage, and the service assumed the status of a fad complete with its own songs and movies and references on comedy television shows. In 1977 the number ofCB channels was increased from 23 to 40 because of demand for more space. (See also Amateur.)
See Channel. ClosedCaption See Modulation. Closed-circuit Not broadcast; availability intentionally restricted as to location through useof wired circuitsor radio frequency band used. Clutter Term applied to the ever-larger number of commercials, station and network promotions, and station identifications aired during every television (or radio) commercial break. Clutter was not amajor problem until shorter (:30 seconds or less) commercials became common, although the total number of commercial minutes per hour also has been climbing. Some consider the growing use of small networkor cable service logos in thecorner of the screento be a form of visual clutter. Coaxial Cable A cable consisting of two concentric metallic conductorsa thin wire or pipe in the middle and, separated by a carefully and evenly sized insulator, an outer conductor of woven metal mesh or a larger pipe. Most coaxial cable is flexible with an outer plastic sheathfor insulation and mechanical protection; the kind that has rigid piping generally is restricted ClearChannel
AppendixB Glossary
781
to short runs carrying high current, such as from a powerful transmitter to an antenna. Coaxial cablecan carry a tremendous bandwidth and has made long-distance-beyond the range of off-the-air pickup-television transmission or program distribution practical. Much of the intercity television (and telephone) network (and, indeed,most video signals carried by wire within a studio or in a cable system) requires coaxial cables, since ordinary wires do not carry a television signal satisfactorily. The rest of the intercity network uses wideband microwave (see Waves) point-to-point transmission and reception systems. Although modern practice has producedcables utilizing several coaxial conductors independently covered by the sameouter sheath, permitting very wide bandwidthsto be carried, the newfiber optic cable, an extremely fine thread of fiberglass modulated with light waves by a laser and capable of carrying a tremendous amountof information, is being increasingly used in their stead. Coherent See Laser. Coherer See Receiver. Coincidental See Ratings. Color, Colorburst, Color Wheel See Television Signals. Colorization See Colorizing. Colorizing Using a computer to add colors to a black-and-white feature film. Turner Broadcasting (Turner Classic Movies,superstation WTBS, etc.), now part of AOL/TimeWarner, is particularly noted for this practice, which many purist movie fans disapprove. CommonCarrier A transportation or communication activity-airlines, truck lines, and telephone companies-which undertakes to accept for transmission at published nondiscriminatory rates all correspondencefreight, passengers, messages-tendered by members of the public. A common carrier is often a public utility,an organization operating under a franchise from a government and charged with certain activities necessary for the public welfare, that accepts regulation of rates in exchange for monopoly or near-monopoly status. By law, broadcasting is not considered a common carrier and is not regulated as such for rates or program content. carrier” On the other hand, while cable might better fit under the “common label, it actually fits into both classifications (or neither one) because of special legislation, FCC rules, and court decisions. Communication The transmission and reception of information through any medium between and among humans and/or machines and/or animals (see also Mass Communication, Mass Media). Information, according to the theory developed by Shannon,Weaver, and others, is anything (particularly, but not exclusively, knowledge and intelligence) that someone desires to have transmitted, together with any intelligence transmittedintentionally or not. Intelligence is an old word for “news,” information of military value, as well as information understandable to or capable of being deduced by the recipient or audience, the eventual recipient(s) of a
782
Appendix B Glossary
message. A message is intentionally coded (into speech or some other form) and transmittedas information. Most messageshave meaning, which means that there is a sharing of concepts between a communicator and the audience. A symbol or sign or code has meaning to the extent that itsconnotations and denotations are mutually understood by communicator and audience. (See also Signal.) Community Antenna Television See Cable. ComparativeHearings See Allocation. Compatible A new technological advance is said to be compatible if it will not render existing receivers or other equipment obsolete and can, for instance, playthe same recordings. Conduction See Radiation. Conductivity See Waves. Conelrad See Emergency Broadcast System. Conglomerate See Ownership. Construction Permit (CP) See Allocation. ContinuousWave ( c w ) See Modulation. Convergence The obliteration of distinctions between media, at the production level (e.g., using HDTV and computer editing to create feature motion pictures to be shown in theaters) or in the home (e.g., the use of a computer monitor to watch television programs or vice versa). Copyright, Performing Rights Societies Literally, the power to control the right to copy a literary work (such asbooks or plays), music,paintings. The U.S. copyright system was established in Article I, Section 8 of the Constitution (seeInvention, Innovation, Patents). Although one copyrights a piece by labeling it, prior to publication or distribution, with a 0 or the word “copyright,” the name of the copyright owner, and theyear, it is wise to register the copyright with the U.S. Register of Copyrights in order to have dated proof of notice of copyright. Infringement of copyright-copying without permission-is a federal offense. A 1976 copyright law (effective January 1,1978)put obligations on CATV for the first time, andgrants copyright for the author’s life plus 50 years. Performing rights societies such as ASCAP (American Society of Composers, Authors and Publishers) and BMI (Broadcast Music, Incorporated) administer the copyrights held on most music for the benefit of the copyright holder(s); some European music is controlled by SESAC, Incorporated. Started in 1914 when composer Victor Herbertobjected to the playing of his musicin a restaurant (benefiting the restaurant but not Herbert),ASCAP licenses performance of all music owned by persons for whom it acts as agent. (Recording, dramatic, and other rights are licensed case by case.) Each station pays a small percentage of its gross revenues for the right to play all ASCAP music. Each year, ASCAP distributes thesemonies to its members according to acomplex formula and following a sample survey of actual renditions of each piece of
Appendix B Glossary
783
music. In 1939-1940, ASCAP raised its rates to the point wherebroadcasters rebelled and organized a rival organization, BMI. Today, most stations have contracts with both organizations-although the relationship is never placid and often has been complicated by court supervision. Counterprogramming See Programming. Cross-mediaOwnership See Ownership. CrystalControl See Transmitter. Crystal Set See Receiver and Vacuum Tube. Current See Circuit. DAT (digital audiotape) See Recordings. DBS (direct broadcast satellite) See Satellite. Decoherer See Receiver. Demographics Measurement of the division of audiences into groups by age, gender, educational attainment, income, etc., for purposes of aiming advertising at desired targets. Deregulation Policy ofFCC (and other government agencies) after the mid-1970s to remove existing regulations and rely on market forces such as competition for control of potential excesses. Desktop publishing Using computers, and usually special software, rather than older printing technologies such as moveable type and photo offset techniques,toprepare (and sometimes produce,in smallquantities) printed materials. Detection See Vacuum Tube. Diaries See Ratings. Digital/Analog Digital signals are a series of discrete “on” or “off” conditions, based on rapid sampling rather than a continuously varying one as in an analog signal. Digitalinherently is able to ignorestatic and other interference and is capable of very high quality reproduction (as in audio CD or DAT recordings), but it requires a far greaterbandwidth than does an analog signal. Almost all computers use digital signals,and the newest (and most expensive) models of all types of other devices arenow designed for digital processing. Diode See Vacuum Tube. Diplexing See Modulation. Direct Current (DC) See Vacuum Tube. DirectWave See Waves. Directional Antenna (DA) See Antenna. Discrete See Laser and Modulation. Dish See Antenna. DominantStation See Channel. Dot Sequential See Television Signals.
784
Appendix B Glossary
Downlink See Satellite. DTV Digital Television. Fostered by Congress, and approved by the FCC in the 199Os, it can be used to broadcast HDTV or as many as four NTSCquality broadcasts on the same channel. Separate DTV channels were set aside for existing broadcasters, who were expected to return to theFCC the channels usedfor analog transmissions after a substantial proportionof the population hadbought the expensive receivers needed for DTV. DVD ((Usually) Digital Video Disc) See Recording. Duopoly See Ownership. DX-ing A hobby, quite popular in thefirst decades of radio, of attempting to receive stations far beyond normal reception range. Most stations in a given city cooperated by going off the air one night a week, the “silent night,” so that listeners could pick up stations elsewhere in the country. Silent nights had stopped by the late 1920s as more stations went on the air, competition increased, andbroadcasting became more familiar, but DX-ing continues today among amateur and some broadcasting listeners, particularly of FMand television near theheight of the 11-year sunspot cycle when freak reception is more common. E-commerce See Internet. Edison Effect See Vacuum Tube. Editorials See News. EducationalTelevision See ETV. ElectricalCircuit See Circuit. Electrical”kanscription See Recordings. Electromagnet See Circuit. Electromagnetic Energy A class of phenomena such as radio waves, heat (infrared) waves, light waves, X-rays, gamma rays, and cosmic rays. These waves are propagated at the speed of light-approximately 186,300 miles per second, or 300,000,000 meters per second-and differ chiefly in thedegree to which waves of various frequencies or lengths are reflected from or pass through different physical media. The eleqtromagnetic spectrum is composed of all typesof waves, from electrical $Id radio waves alternating a few times per second through visible light waves with frequencies measured in billions of Hertz (cycles per second) andeven beyond. (See Waves.) Electrons See Circuit. Emergency Broadcast System The EBS system was designed to alert the public in case of imminent tornado, flood, hurricane or other disaster. It is activated many times a year. It originated as “Conelrad” (CONtrol of ELectromagnetic RADiation) early in theCold War. That system required all participating ( A M only) stationsto switch to 640 and 1240 kHz with lowpower in order to both alert the publicabout a possible atomic attack and prevent
Appendix B Glossary
785
the use of known-location transmitters as “homing” devices for aircraft. As television became more popular, and as the Cold War thawed, the system evolved into EBS (still the mostfamiliar name), which receives alerts (typically through AP wires and key stations) and transmits warnings to the general public as well as to special receivers turned on by the combination of tones and brief shutdowns of transmitters. Although emergency management authorities would like to be able to turn on radios remotely, this feature isnot generally available. ENG (electronic news-gathering), EFT (electronic field production), SNG (satellite news-gathering). ENG uses portable, battery-operated electronic equipment-microphones, television cameras, VTRs-for acquiring television news, in contrast to the use of portable film cameras for this purpose. In the process, tapes are taken back to the station or sent by means of a mobile or portable transmitter, as aremote. Editing may be done in the field or at the station, and the coverage may beaired “live” if the signal can be sent back to the station by microwaveor by helicopter or other relay. EFP is the use of similar equipment for the field production of more complex programs or commercials. SNG is the use of a space satellite, rather than microwave, transmitter truck, with the signal received at the station. With SNG, the station or network can receive news program content from almost any place on earth. ENG became dominant in many markets in the 1970s after development of portable color equipment (including time base correctors permitting the use of less expensive videotape recorders over the air), in spite of its high initial cost, partly because it permitted immediate replay of pictorial material without film processing delays. ETV, ITV, PTV (educational, instructional, and public television) Originally educational broadcasting was thegeneric term for classroom instructional, adulteducation, and cultural programming, particularly when aired over noncommercial educational stations. Public broadcasting, popularized by 1967 a Carnegie Commissionreport, generally refers to broadcasting on noncommercial stations. Instructional television generally has been restricted to in-class or other closed-circuit or videotaped uses. The same descriptive words can be applied, with suitable modification, to radio. Ex Parte Contact with a regulatory body (such as the FCC) or court by only one party to a dispute. Facsimile A system of telecommunication for the transmission of fixed images (television transmits moving or transient images) with a view to their reception in a permanent (paper) or semipermanent form. Includes the wirephoto process used by wire services to send pictures-by wire or radio-to newspapers early in the 20th century. Experiments with broadcast facsimile were conducted the 1940s, and industrial interest in the technique was exploited as early as the 1970s. Systems using blank lines in a television picture to transmit “pages” of information to the homevideo
786
AppendixB Glossary
screen, such as Britain’s CEEFAX, are teletext, not facsimile. In the 1980s, inexpensive and reliable equipment made “FAX” transmissions over regular dial telephone circuits very popular among businesses of all sizes. (See also Television’s Early Technical Development.) FamilyViewing See Programming. FAX See Facsimile. Feedback Feedback is any situation whereby a portion of the output of any process or system influences the input into the system in the future. Negative feedback is used to control or “dampen” the process; positive feedback reinforces the ongoing process and is usually detrimental. In mass communication, any means of responding to a particular message (letters to the editor, sales, audience ratings) is anexample of feedback. FiberOptic See Coaxial Cable. Fields See Television Signals. Field Sequential See Television Signals. Filament See Vacuum Tube. Film Chain See Television Camera Tubes. Fixed See Land Mobile. Fleming Valve See Vacuum Tube. Formats(Program) See Programming. Formats(Videotape) See Recordings. Frames See Television Signals. Franchising See Cable. Freeze See Allocation. Frequency See Waves. Frequency Modulation (FM) See Modulation. FTP File Transfer Protocol See Internet. Full-motion Video A term that came into use when computers and Internet connections had the necessary bandwidth to reproduce realistic motion over the Internet. Previously, video over computer connections was a sequence of individually scanned pictures-and looked like it. Galvanometer See Receiver. Generations See Recordings. Generator See Circuit. GeostationaryOrbit (GSO) See Satellite. Grandfathering Allowing existing situations to continue regardless of new rules. Grid See Vacuum Tube.
Appendix B Glossary
787
Ground See Circuit. Groundwave See Waves. Guard Bands See Television Signals. Ham See Amateur. HBO (Home Box Office) A major pay-cable service. See Cable. HDTV (high-definition television) Any of several means of improving television to the quality level of 16 mm or even 35 mm film. While far advanced in Japan (MUSE) and Europe for DBS, HDTV may become a production standard in theUnited States (for television programs and feature “films”) rather than a direct-to-home delivery system in thenear future. For a number of reasons-primarily the political urgency of ensuring thatexisting NTSC-standard sets (seeTelevision Signals) are not renderedobsoletethe United States is experimenting with ATV (advanced television), which is compatible rather than incompatible with existing sets, even though it may not be capable of true high definition. Although initially an analog technology, HDTV became a digital service during the 1990s. The FCC has approved a variety of potential standards,although none have attracted the viewers’ fancy by the start of the new millennium. See also DTV. HeadEnd See Cable. Helical Scan See Recordings. Hertz(Hz) See Bandwidth. Heterodyne See Receiver. HighBand See Recordings. Holography See Laser. HTML (HyperText Markup Language) See Internet. H” (HyperText Transfer Protocol) See Internet. IATSE (International Alliance of Theatrical Stage Employees) See Unions. IBEW (International Brotherhood of Electrical Workers) See Unions. Iconoscope See Television Camera Tubes. Image Dissectors See Television Camera Tubes. Image Orthicon See Television Camera Tubes. Incoherent See Laser. Induction See Radiation. Information See Communication. Information Theory See Morse Code. Infotainment A word coined from the two words “information”and “entertainment,” reflecting the debasement of information content. Infringement See Copyright.
788
Appendix B Glossary
Innovation See Invention. Instructional Television See ETV, Integrated Solid State Circuits See Vacuum Tube. Intelligence See Communication. Interactive Cable Systems See Cable. Interference See Allocation. Interlaced See TelevisionSignals. Intermediate Frequency (IF) See Receiver. InternationalTelecommunication Union (ITU) A specializedUnited Nations agency, founded in 1865 as the International Telegraph Union, now particularly concerned with radio frequency allocation matters as well as international technical and operational standards for all forms of telecommunication. Internet The Internet is a worldwide distributed network for the interconnection of computers. Before the sale of personal computers “took off’ in the early 1980s, most businesses, governments, and other institutions using computers relied on direct connections, typically through leased telephone lines. (While space communication satellites can be used, the lag caused by the vast distance between a synchronous satellite and earth led to transmission complications.) The Internet grew from Arpanet, a network initiated in 1969 by theDepartment of Defense forthe exchange of large quantities of scientific and engineering data by its contractors, including the national laboratories and a number of major universities. The development of programs for e-mail (transmission of electronic messages between or among computers), FTP (File Transfer Protocol), and the modem (a “modulator-demodulator” device that takes electronic signals from a computer and inserts themin a telephone line), ledto wider use of transmitted messages and shared data. Before the Internet became widely available, individuals might dial and connect to one or more BBS (“bulletin boards”) for textual information or exchanges on a specific topic. The first major switched system or flexible e-mail connections between individuals was Bitnet, operated informally by colleges and universities. After the Internet became available to private users in the early 199Os, and Internet Service Providers (ISPs) started selling access, most BBS were replaced by e-mail “listservs,” “chat rooms,” or “Usenet newsgroups” and, later, Web sites. Some used the Internet for inexpensive telephoning-since costs remain the same for the user whether the other party is in the next room or across the world. The Internet quickly became a seamless web of interconnections, initially (late 1980s) used for corporate messaging and later (mid-1990s) for individual communication. At the same time, the amount of information that a modem could transmit or receive had grown from 300 bytes to more than 56,000 bytes
Appendix B Glossary
789
(a measure of information roughly equal to one digit or letter) per second. Special lines, provided by telephone companies (DSL) or cable systems (using “cable modems”) allow speeds ranging from 10 to 100 times as fast, and even much higherspeed broadband connections are being planned. These higher speeds, as well as the improvement and ever-lower cost of scanners (for converting pictures to bytes) and other equipment led to the transmission of pictures (first line drawings and monochromatic still pictures, then color, then moving pictures) and sounds as well as words and data-and also to the use of the Internet for commercial advertising. While commercial messages were a rarity on theInternet as late as 1995, by 2000 advertising appeared on a huge proportion of home pages (i.e., the first page you see when you log on to a site) accessible through the World Wide Web. Nobody knows how many servers (computers configured to make Web sites available for those searching for t h e m - o r for the information they contain-on the Internet) or routers (devices that cooperate to deliver messages, chopped into small later-reassembled packets, across the Internet, between servers and their clients) there are operating at any moment, and nobody could possibly draw a comprehensive map of the Internet. There are literally billions of Web pages available, from those of individuals who put out pictures or text of interest only to distant relatives, to news media that can keep up to the minute without breaking into existing programming or editions, organizations and corporations that can make information available far more effectivelythan with printed materials, and governments able to communicate with constituents quickly and cheaply. Through the use of browsers (software for bringing up anddisplaying Web pages) such as Netscape Navigator or Microsoft Internet Explorer, it is possible to locate material-text, graphics, audio, video-using simple and logical language or by clicking on a simple hyperlink rather than the often-lengthy specific address of the source one is looking for. Furthermore, a number of firms provide index services, search engines, and otherwise make it easy to find a Web page. The popularity of browsing (or surfing) has made the World Wide Web’s“WWW” prefix synonymous with the Internet to many people. site a uniqueaddress. A U . (Uniform Resource Locator) gives every E-commerce, using the Internet to sell services, merchandise (e.g., booksellers such as Amazon.com and Barnes & Noble), or information (most large newspapers and databases such as Lexis/Nexus), has given rise to a number of “dot.com” firms, so-called because of their location in the “.com” (commerce) domain of the Internet. (Other top-level domains are .edu (education), .org (organizations), .gov (government), and several approved in late 2000 by a formerly governmental but now private organization known as ICANN.) The development of supposedly secure encryption that permits the safe and confidential sending of credit card numbers, banking and medical information, and other sensitive data through the Internet greatly aided the rise of e-commerce.
790
AppendixB Glossary
Although acronyms such as HTML (HyperText Markup Language, used to form Web pages) or HTTP (HyperText Transfer Protocol, the system of communication rules used by the Web) aren’t understood by everyone, they are employed by roughly half the U.S. population and the same number of computer users overseas every day. The Internet has become a mass medium in itsown right. Complex scientific and engineering data are now moving to a much smaller, but tremendouslyfaster, government-sponsored Internet 2 network, The traditional media also have embraced the Internet. By 2000,more than 3,700 radio stations in the United States were engaged in Internet radio, and were streaming their signals over the Web-obliterating the restrictions nature or the FCC had imposed on their traditional transmitters and antennas and making possible a worldwide audience. Video was making early moves along the same lines, although ordinary telephonemodems were too slow for full-motion video.However, a form of pseudo-video has become popular with Webcams-a video camera pointed at some supposedly interesting scene (from an individual going about everyday business to the hatching of falcon eggs) updates its image on a Web site every few seconds or minutes. Television stations also used the Internetto post additional information about news or programs, as well as audio and othersometimes interactive-information. The major music recording companies had to resort to the courts in 2000-2001 to close down Napster, a service that used MP3 audio coding software to permit the downloading of recorded music (to be listened to over increasingly high quality computer loudspeakers,or on CDs “burned” or created at home)from the ‘netwithout any royalties being paid to thecopyright holder. As modems grew faster and DVD video recording easier, the motion picture industry started worrying that they, too, would find the Internet a major competitor. Popular author StephenKing “published” a novel on the Internetin 2000, a chapter at a time, promising to continueif enough people paida small fee (through the Internet) for each chapter. Not enough did. While definitions of words like Webcasting are subject to change almost without notice, the concept that motion pictures, graphics, sounds and text could be converted to or originated as bits of information and transmitted electronically, seems to have taken hold. While some argue that the Internetcan become the next generation of television (aided by the standards for DTV,which are more compatible with computer monitors than with conventional television), others go beyond that goal and maintain that the ongoing convergence in the visual media will result in a computer/Internet takeover of all media. InternetRadio
See Internet.
Invention, Innovation, Patents Invention is the act or process of developing something new-a device, a process, a thing-through study and experimentation. Innovation is theintroduction of an invention into use or into the marketplace. The U.S. Constitution (Article I, Section 8 ) empowers the
Appendix B Glossary
791
federal government to issue patents, which guarantee to the inventor exclusive rights for 1 7 years to manufacture, or to license the manufacture of the invention, in exchange for monetary royalties. In exchange, the invention goes into the public domain after that period, or it may be renewed once. The intentof a patent system is to encourage both invention and use of that invention widely, rather than keep it as a trade secret for an indefinite period. (See also Copyright.) Ionosphere See Waves. IRAC (Interdepartment Radio Advisory Committee) Now part of NTIA. See Allocation. ISP (Internet Service Provider) See Internet. ITFS (instructional television fixed service) Channels set aside in the 12 GHz band for televised school instruction; channels are often leased to MDS operators at night. Kinescope Recorder (Kine) See Recordings and Television Camera Tubes. Ku-Band See Satellite. Land Mobile A family of radiocommunication services, generally the safety and special services-police, forestry-but sometimes the common carrier services such as mobile telephone. Includes cellular telephones that enable one to keep in touchover a widegeographical area, with noloss of quality, because of continuous computer-directed assignment of the call to the closest transmitter-receiver site from which thecall can be connected to the wire network. Mobile units in cars and airplanes may be associated with fixed or base stations that communicate with a number of mobile units. Since thelate 1940% the growth of land mobile has clashed with the growth or preservation of television broadcast frequency bands, since both services need vast amounts of spectrum space with similar characteristics. Showing an insatiable demand for land mobile channel bandwidth are a variety ofPCS (personal communication service) systems-from cellular telephones (nowin their secondgeneration in theU.S. and thirdgeneration in Europe and Asia) to the original (failed) Iridium system that launched scores of low-orbit satellites, but couldn’t persuade the public to sign up. Laser An acronym for light amplification by stimulated emission of radiation. Any one of a number of devices that can convert incident electromagnetic radiation of mixed frequency (incoherent) energy to one or more very specific or discrete frequencies of highly amplified and coherent visible radiation. Can be used for carrying great amounts of information or, because of the coherent nature of the radiation andits sharply aimedfocus, for cutting materials; also for holography, a technique for recording and reproducing three-dimensional “pictures.” License See Invention and Allocation.
792
Appendix B Glossary
Licensee See Ownership. Licensing See Allocation. Line-of-Sight See Waves. Lines See Television Signals, LMDS Local Multipoint Distribution Service. LocalOscillator See Receiver. LocalOrigination See Cable. Long Playing (LP) See Recordings. Longwave See Waves. Lotteries See Allocation, Assignment, Allotment, Licensing. LPFM (Low-power FM broadcasting) In the late 1940s,a term sometimes applied to Class D (10 watt) noncommercial educational FM stations. After the FCC mandated that such stations either use higher power (1001000 watts) or accept interference from other stations, many Class D stations left the air. Community groups, schools, churches, andothers became active in arguing for licensing of more such stations in the1970s and 1980s, arguing that the publicdeserved a voice in communities served mostly by increasingly alien group-owned stations. Frustrated by FCC inaction (the result of pressure from commercial and some noncommercial FM stations and people who thought thatrepeaters were more important), some groups established illegal stations. If they caused interference, the FCC closed them down. In 1998,the FCC approved new class of LPFM stations, but instituted strict rules to prevent interference to existing stations-and refused to license any previously illegal station. Congress all but eliminatedLPFM in 2000, but agitation for such a service wouldn’t go away. LPTV (low-power television) A television service authorized in 1981 designed to service extremely small areas. Supposedly intended for minority groups and others with a programming affinity. Since there effectively are no multiple ownership restrictions, some large corporations applied for hundreds of channels in various localities. Several thousand are on theair. Mass Communication Simultaneous (or nearly so) process of essentially one-way communication from a single source addressed to a mass audience. The message usually is reproduced in quantity throughmechanical or electronic devices. A mass audience is more than two undifferentiated persons voluntarilyengaged in thesame communications behavior or activity, but not necessarily interacting in other ways. Feedback, often economic, may alter the content of mass communication but does not alter the oneway nature of a given mass communication event. (See Communication.) Mass Media The means or channels of mass communication: primarily newspapers, magazines, radio (sound) broadcasting, television broadcasting, motion pictures, and, secondarily, the theater, recordings, and books. Heterogeneity of content within the medium, but not necessarily any
AppendixB Glossary
793
specific item or example, and voluntary attention by theaudience are common characteristics of the massmedia. Master See Recordings. Master Antenna Television (MATV) See Cable. Matrix See Modulation. MDS or MMDS (multipoint distribution service or multichannel multipoint distribution service) A microwave service, sometimes using channels leased from ITFS, typically used to provide HBO and other pay-cable services in cities where cable is not yet fullyinstalled. The MDS operator generally leases special downconverter tuning devices that pick up the microwave signaland convert it to the television frequencies expected by the television set. Often called “wireless cable” to emphasizethe program service beingprovided. Meaning See Communication. Mechanical Scanning See Television’s Early Technological Development. Message See Communication. Microgroove See Recordings. Microradio Another term for LPFM. Microwave See Waves. MIDI (Musical Instrument Digital Interface) Computerized control system that allows a keyboard to “talk” to studio synthesizers for creating music electronically. Modem Modulator-Demodulator. See Internet. Modulated Continuous Wave (MCW) See Modulation. Modulation A radio signal generally consists of a carrier wave and one or two sidebands. (Sophisticated systems such as single sideband do not strictly follow this pattern, but they are not used for broadcasting, except for television’s vestigial sideband [see Television Signals].) The carrier wave signal generally is on the center frequency of the channel on which the transmitter is operating and, unless used in an“off-on” manner to transmit Morse code, carries no intelligence itself. The information or intelligence or message is carried in the form of modulated sidebands. Sometimes the modulation is a variation in the strength or amplitude of the sideband; sometimes it is a swing of frequency within the channel; sometimes it has other forms, such as pulses. The first two (amplitude modulation, or A M , and frequency modulation, or FM) are used for broadcasting. AM takes up less spectrum space but is more prone to interference on most bands, Television uses FM for sound andAM for picture. Some radiotelegraph systems use the modulation of a tone, interrupted to produce dots and dashes, on a continuous wave (CW) or modulated CW transmitter. Within each channel there may be space to put additional information; a telegraph signal, using very little bandwidth, can generally be added toa telephone channel, with the telegraph sound being filtered out at the telephone. In addition, the bandwidth of a channel can often be divided and made more useful by
794
AppendixB Glossary
diplexing or multiplexing-inserting two or more signals on the same channel in sucha way that each may beretrieved independently at the receiving end. Since 1955,the FCC has allowed FM broadcast stations to obtain a Subsidiary Communications Authorization(SCA) that will permit it to use one or more subcarriers within thetotal channel bandwidth of 200 kHz but outside the modulated frequency swing of the mainprogram channel, music transThese subcarriers generally areused for stereophonic (stereo) missions. In a binaural system, the human condition of two ears feeding one brain is extended backward from ears to two loudspeakers, two amplifiers, two signals fromthe receiver, and two microphones. Stereo permits listeners with proper equipment to hearthe music stereophonically and other listeners to hear it monaurally. In recent years quadrasonic systems, which give the illusion of four sound sources surrounding the listener, have been developed, some using the discrete system-four separate isolated channels fed to four speakers-and others the matrix system-reduction and encoding of four channels into two, and decoding backinto four at the receiver or player, a less expensive but slightly less efficient process. OtherFM stations use their subspecialized services carriers for storecasting or transitcasting or for even more such as facsimile or special programming to the blind or, using teletypewriters, the deaf. (SeeWaves.) 7kansitcastingis anSCA service supplied to trains, buses, and similar conveyances by FM stations. Since the driver or crew usually controlsthe receiver, the riding public becomes a captive audience to the broadcast station and its music, and sometimes commercial messages. After some public outcry and the decline in public transit use after the early 1960s, transitcasting became rare.A similar service is storecasting, in which a music service-sometimes labeled Muzak after the franchised trademark used by the largest of such firms-is delivered over a subcarrier or over leased wirelines to stores, doctors’ offices, and other business places. If broadcast, special receivers ableto pick up the subcarrier are supplied for a monthly fee. Television multiplexing is less common, although an audio program cue and intercom for station personnel in the studio or field, called IFB (interruptible foldback), stereo sound, or a Secondary AudioProgram service (SAP)such as a simultaneous language translation canbe found. Particularly common are means of providing printed captions for the deaf on a closed caption basis, in which a special receiver or decoder must be purchased to pick up the character-generated captions on a line of the V B I or vertical blanking intervalbetween pictures. Open captioningmay be seen by everyone, without the needfor a special receiver, but itis deemed by programmers to be disruptive to those with normal hearing and is not common. The openuse of sign language, usually shown in an insert in the picture, is chiefly found in telecasts of religious services. Monaurally See Modulation. Morphing From the word “metamorphosis,” or change of physical form. Refers to the practice of using a computer to create major changesin appearance, particularly in feature films. Typically, the images flowinto one another.
Appendix B Glossary
795
MorseCode Code that permits transmission of the alphabet as a series of short and long pulses of electricity or signal: “dots and dashes.’’ It was invented by Samuel F. B. Morse and his associates (especially Alfred Vail) of the in the 1830sfor use with the electrical telegraph. Because it made use fact that someletters are more common in English than others, it was anunconscious use of some of the principles of information theory(see Communication) to achieve greater efficiency-the letter e, for example, is very common and iscoded as a quickly and easily transmitted dot, whereas the infrequently used letter z requires two dashes and two dots. MOS See Television Camera Tubes. Mosaic See Modulation. Motion Pictures A visual record of a story or event, stored in the form of images, and usually the associated sound, on film, for later projection at such speedas to give an audience an illusion of motion; also, the projection of same. In a television studio, films generally are projected in a film chain (see Television Camera Tubes). MPEG (Motion Picture Experts Group) A video camera format for encoding (andlater editing and transmitting) graphics such as motion pictures via the Internet. See Recording. MP3 A format for transmitting sounds (including musical recordings) via the Internet. See Recording. MS0 (multiple system operator) See Cable. MTV A cable programming service specializing in short music videos. Multimedia An overall term for the convergence of audio, video and computer media in the homeor for business presentations. MultipleOwnership See Ownership. Multiplexed See Modulation and Television Camera Tubes. Must-Carry Rules See Cable. Mutual Broadcasting System (MBS) See Network. NAB (National Association of Broadcasters) Television Code See Programming. NABET (National Association of Broadcast Employees and Technicians) See Unions. Napster The most popular of several services briefly (until legal action closed it down in 2000) used for downloading musical recordings from the Internet without paying royalties to the copyright holder. NARBA (North American Regional Broadcasting Agreement) See AM Channels. Narrowcasting See Broadcasting. Network Two or more stations, often broadcasting stations, interconnected by some means, or associated for the often simultaneous transmission of the
796
Appendix B Glossary
same messages or programs. When one station picks up the signal off the air from another, it isa relay. Broadcasting networks were referred to as chain broadcasting in the1920s and 1930s, and colloquially are known as webs or nets. Since the late 1970s, various pay-cable program services, such as 23.0 (Home Box Office), Showtime, and CNN (Cable NewsNetwork), and “superstations,” suchas WTBS in Atlanta, VVPIX in New York,and others that provide programming by satellite to cable system operators, as well as collections of stations such as PAX, have been referred to as “networks,” further confusing the issue. In 2001, there were seven national broadcast television networks in the United States-American Broadcasting Company (ABC), now owned by Disney; Columbia Broadcasting System (CBS),now owned by Viacom; National Broadcasting Company (NBC), which is owned by General Electric; the Fox broadcasting network (owned by Rupert Murdoch); Warner Brothers Network (W);Universal Pictures Network (UPN); and the Public Broadcasting Service (PBS), funded in part by the Corporation for Public Broadcasting. National radio networks include ABC (which supplies four separate services), CBS, NBC (is owned and operated by Westwood One), and National Public Radio (NPR).American Public Radio also provides programming to public radio stations. (The Mutual Broadcasting System closed down in 2000.) Most television stations and just over halfthe country’s radio stations are affiliated with networks. In the United States, a network generally consists of the program-producing and central administering organization, a number of owned-and-operated (0& 0)stations (see Ownership), and a greater number of independently owned but aflliated stations. The network generally produces, or buys from independent producers or packagers, programs that are beyond the resources of a single station and “sells”them to national advertisers for program production costs and the aggregate sum of the time charges of all affiliates airing the program. Stations may refuse to carry network programs, since the station licensee is legally responsible for everything aired over the station. The affiliates receive only 25 to 35% of their normal time charges but gain in other ways. They can sell spotscommercial advertisements-immediately before and after the program, during station break or station ID (identification) periods, for high prices because of advertiser desire to reach the large audiences attracted by the expensive network programs. The networks also supply affiliates with some sustaining-not sponsored by commercial advertisers-programs without cost, as well as with prestigious news programming. Until the mid-l980s, networks usually paid for interconnecting the stations by microwave or coaxial cable facilities supplied by AT&T, but since about 1985 they lease relay facilities on space communications satellites for that purpose. News The timely report of an event of interest to a number of people, often obtained through the wire services or news agencies-organizations that gather news and transmit it, usuallyby teletypewriter, to media clients for dissemination to the public by various means. The main wire services used in the United States are the Associated Press (AP),the struggling United Press International (UPI),and Reuters, an English firm. Frequently
Appendix B Glossary
797
considered partof broadcast journalism are public aflairs programs, which consist of news and feature material dealing with government and public issues that help citizens make reasoned decisions on such matters, and editorials, which are clearly identified, on-the-air expressions of opinion by a station licensee or his representative on a topicof public interest and concern. (See ENG and Remote.) NII National Information Infrastructure. Term adopted during the ClintonGore administration (1993-2001) to refer to aspects of telecommunications policy. Nipkow Disc See Television’s Early Technological Development. Noise See Signal. NTIA National Telecommunications and Information Administration of the U.S. Department of Commerce. NTSC (National Television System Committee) See Television Signals. 0 & 0 (owned and operated) See Network. Off-network See Programming. Ohm See Circuit. On-line and Off-line Editing Different forms of computerized video editing systems. Optical Fiber See Fiber Optic. Orthicon See Television Camera Tubes. Outside Broadcast (OB) See Remote. Ownership Although physical facilities and “goodwill” may be owned, the Communications Act of 1934 (and the Radio Act of 1927 before it) reserves title to the entire electromagnetic spectrum to the people of the United States, with the government administering it. Hence, although it is someone may own a transmitter, the public owns the channel on which operating. The broadcaster merely has a permitto use it in thepublic interest for a few years; in practice, licenses are renewable and have rarely been revoked during or at the endof their term. The FCC has frequently investigated the issue of concentration of control and has issued reports, orders, and rules frowning on cross-media ownership, overlapping ownership of a newspaper and a broadcasting station in the same market; prohibiting duopoly, one licensee from controlling more than one stationof the same service in a single market; and limits multiple ownership,the total number of stations an individual or company may own nationally in each broadcasting service. This number, for many years, was 7 standard ( A M ) ,7 FM, and 7 television, with no more than five of the television stations on the VHF part of the spectrum.In 1985, these numbers were increased to 12-12-12,and then in 1992 individual licensees were allowed to own up to 18 AM and 18 FM stations in theUnites States, and up to two of each in major markets. As a result of the Telecommunications Act of 1996, all multiple-ownership
798
Appendix B Glossary
restrictions were dropped for radio, and modified substantially for television. However, the commission no longer routinely approves AM-FM-TV combinations in the same market, although those already licensed to a single individual or company may continue until a change of ownership occurs. Many multiple or group owners have stations in different towns; in recent years conglomerate companies-firms that ownor control numerous companies in different fields-have entered the field of broadcasting. The number of stations owned by a given entity hasburgeoned from a maximum of 21 (Park Broadcasting in 1984) to more than 1,200 (Clear Channel/ AMFM). In some major markets, with as many as 20 or 30 radio outlets, almost all are owned by no more than three or four licensees. Network afiliation is not the same as ownership; many group owners have one station affiliated with one network, a second station with another network, and so on. The licensee, or station “owner,” is responsible for everything broadcast over the station since, atleast in theory, he or she is a trustee for the public. Package, Packager See Network and Programming. PAL (Phase Alternation by Line) See Television Signals. ParabolicReflector See Antenna. Parallel See Circuit. Patents See Invention. Pay-TV, Pay-cable A television distribution system in which members of the audience pay a special charge for particular programs. Originally planned as an over-the-air service, and the subject of a number of demonstrations and experimentsfrom 1951 on, most pay-TV is nowin theform of separate pay-cable channels (such as HBO, Showtime, and The Movie Channel) for which additional monthlycharges are levied. Sometimes, payTV charges are on the basis of pay-per-view (PPV), the cost to the viewer varying depending on the individualprogram, using a variety of hardware to prevent nonpaying viewers from descrambling or obtaining the pay program(s). Scrambling is a process that mixes up picture or sound elements during transmission but permits normal reception on a set with the proper (leased) equipment attached. Home Box Office was the first (1976)to establish a system to provide pay-cable programs to the head ends of cable or, in some instances, systemsusingspacecommunicationssatellites microwave. Most “free” or pay national programming services, including PPV, distribute in the same way. The last on-air pay-TV stations tended to be independently programmed. People Meters See Ratings. Performing Rights Societies See Copyright. Phosphor See Television Signals. Picture Elements or Pixels See Television Signals.
Appendix B Glossary
799
Plate See Vacuum Tube. Plumbicon See Television Camera Tubes. Polarization (horizontal, vertical, or circular) See Antenna. PPV (pay-per-view) See Pay-TV. Precision Offset Carrier See nansmitter. Prime Time Access Rule (PTAR) See Programming. ProductionHouse An organization, sometimes associated with a motion picture studio, thatspecializes in packaging and producing television programs or commercials. Examples are MTM and Lorimar. Programming Among terms needing definition are the short-lived family viewing (FV) time, the period from 7 P.M. to 9 P.M. Eastern and Pacific time which, starting in 1975,was to contain only content suitable for the entire family, This standard was written into theNAB Television Code after pressure from Congress and others concerned about the possible effect of violence andsex content on children.FCC chairman Wiley’s “encouragement” was a factor in a federal judge’s decision in 1982 that individual stations should control their own programming; concerted or mandatory (NAB code) advertising restrictions were illegal. The NAB promptly dropped the entire code idea: program content as well as advertising; radio as well as television. PTAR, or the Prime Time Access Rule,was a 1974 FCC action that required affiliated stations to program at least one hour during prime time, 7 P.M. to 11 P.M. Eastern and Pacific time, from non-network sources, to encourage a diversity of programming and programming sources. A format is a type of program (or genre) such as a soap opera; the termmay also refer to the specific organization of content of a particular show. A program stripped or across the board is scheduled at thesame time each weekday. When a different program is shown at the same time each weekday, the strategy is called checkerboarding. Counterprogramming is thescheduling of material usually not aired by competitors at that hour, e.g., entertainment when most stations are airing local news. Station or affiliate time is the prime time period (usually from 7 P.M. to 8 P.M. Eastern and Pacific time) not programmed by the network. Many non-network programs are syndicated-either off-network, having been shown on a network in the past, or original-and sold to individual local stations. A spin-off is a program developed around a character or a situation in a successful program. A program package is the program idea, writers, stars,director, and so forth assembled by a packager for production or sale to a network or for syndication. Propagation See Waves. Public Access See Cable. Public Af€airs See News. Public Broadcasting Service (PBS) See Network.
800
Appendix B Glossary
Public Interest, Convenience and/or Necessity See Allocation. PublicTelevision See ETV. Public Utility See Common Carrier. Pulse Modulation (PM) See Modulation. Quad Head (Quadruplex) See Recordings. Quadrasonic See Modulation. Radiation, Conduction, Induction Electricity can travel from one point to another in a variety of ways. Conduction requires a conductor, usually a piece of wire, to carry the current. However, something not specially prepared as the conductorcan also serve, as, for example, the earth, saltwater, or some other common circuit ground. Induction uses the principle that an object may be electrified, magnetized, or given an induced voltage by exposure to a magnetic field. During the late 1800s several experimenters, particularly Nathan B. Stubblefield, arranged two loops of wire a distance apart and sent an electrical signal through one of them. The resulting magnetic field was picked up by the other loop, some distance away-up to three miles in some cases. Although the method was generally used for Morse code, speech could be transmitted in this way. Most of the energy in an induction field is, however, contained in the vicinity of the transmitting loop. At higher frequencies, it is possible to radiate-diffuse from a center, as when a balloon is blown up-the signal for great distances. Generally radio communication requires frequencies above those used for telegraph or voice, although any radio frequency may undergo modulation with the audio frequencies of speech and allow the code or the speech to ride piggyback on the radiofrequency wave. See Waves. Radio, Radiocommunication A general term applied to the use of electromagnetic, or Hertzian, waves to communicate. An, earlier term was wireless. RadioBroadcasting Strictly speaking, multiple-address radio telephony (see Broadcasting). Radiotelegraphy See Telegraphy. Radiotelephony See Telephony. Radio-TelevisionNews Directors Association See Unions. Ratings Estimates of audience size and composition used to measure the popularity of programs. Ratings are compiled by a rating service such as A. C. Nielsen or Arbitron or, in earlier years, the Cooperative Analysis of Broadcasting, C. E. Hooper, and others. Methods include telephone calls of that are coincidental with the program, diaries,andvariouskinds recorders, including peoplemeters, which requireeach viewing member of the household periodically to push a button thatis recorded at the ratings company, but do quickly secure information about individual (rather than
Appendix B Glossary
801
household) viewing. The results are expressed either as ratings, the proportion of all television homes thatare tuned to a given program, or share, the proportion of homes using television at that time that are tuned to the particular program and frequently include additional demographic data of value to advertisers. Advertising agencies also use many other kinds of research data, such as psychographics. Receiver A device for the reception of electromagnetic waves carrying modulated radiocommunication signals, generally including (or attached to) an antenna; tuning components; a detector; and enough amplification stages to permit use of a loudspeaker, Among the earliest devices for detecting radio waves were the galvanometer, a sensitive electrical meter that would show, by deflection of the meter’s pointer, when a signal was present, and the coherer, a glass tube containing metallic filings that would clump together or cohere when an electric current passed through. A tapper or decoherer would disperse the filings between each dot or dash. Later, the c ~ ~ tset a (see l Vacuum Tube) was employed, since electric current not needdecohering. could flow only in one direction through it and it did The diode vacuum tube supplanted the galena or other crystal for this purpose. Greater and greater selectivity-the ability to choose between competing signals-and sensitivity-the ability to receive weak signals-were obtained with the regenerative, superregenerative, heterodyne, and superheterodyne receiver circuits. Receiving sets using the last named circuits worked most efficiently at a single frequency, the intermediate frequency or IF, no matter what the frequency of the station being received. In essence, this type of receiver used a local oscillator to generate a “local” radio frequency signal within the set, which would be a certain number of kiloHertz-the value of the IF-above or below thefrequency of the station to which thereceiver was tuned. In tuning to the frequency of the desired station, one would automatically change the local oscillator or transmitter since the same knobcontrolled both tuning condensers. The two frequencies would “beat” against one another, leaving the resultant intermediate frequency, the difference between the two signals, which would always be the same. The generally relatively low F-a common frequency used in AM radios today is 455 kHz-permits simple and rugged design of components and, beyond the tuningstage, use of only one frequency. The equipment canbe designed for that one frequency rather than to correspond with the broad range of frequencies used by the various transmitting stations within range. As a result, almost all radio receivers today combine tuning or radio frequency (fl) stages, a detector stage, and a number of intermediate frequency and audio frequency (at) stages of amplification-boosting the signal without otherwise changingits characteristics. Theword “receiver” is now commonly usedfor high-fidelity tuner-amplifier combinations that are attached to external loudspeakers, with the word “radio” used for cheaper self-contained units. A television receiver is similar to a radio receiver in function: the desired channel is tuned in muchas in the radio
802
Appendix B Glossary
receiver and theresulting signal is eventually fed to the picture tube (kinescope) and loudspeaker for reproduction of the picture and sound. ReceivingStation See Station. Record Communication A term to distinguish nontransient communication. For example, the telegraph is a record communication; the telephone is not. Film is a record communication; “live” television is not. Recordings Reproduction of musical or other performances stored in the form of magnetic patterns in tape, or grooves in plastic discs. Motion picture film also is a form of recording as are a number of other forms-even writing falls in the category-that are used in broadcasting. The earliest sound recordings were made on wax cylinders. Later, discs, usually 10 or 1 2 inches in diameter, rotating at 78.26 rpm, were used. The electrical transcription (ET),used for radio broadcast programming for many years, consisted of a 15-inch or 16-inch disc revolving at 3 3 % rpm, which gave 15 minutes of playing time per side using standard width grooves. In the late 1940s, Peter Goldmark and a CBS Laboratories team developed the LP (long-playing) record for home use. It was 10 or 1 2 inches in diameter and revolved at 33Y3 rpm but usedan extremely fine microgroove that enabled one side to hold more than 20 minutes of music. This analog format was popular into the199Os, particularly for classical music. While popular music also was supplied on LPs, disc jockeys often had to select one hot “cut” out of many on the“album.” At the same time the LP became popular, RCA introduced a 7-inch, 45-rpm microgroove disc with an oversize center hole, but after a long marketing struggle it was restricted to popular music, one tune to a side. The higher quality of microgroove led to the rapid phasing out of the 78-rpm disc. More recently, the highest-quality audio reproductions have come from CDs or compact discs, which are computer controlled, using digital rather than analog signals that virtually eliminate hiss or noise. Another use for this system, called CD-ROM (compact diskread only memory), is used interactively with computers for the storage and retrieval of vast amounts of data. Reel-to-reel magnetic tape recording derived from magnetic wire recording machines and from steel tape continuous loop recording machines used for such things as telephone weather forecast announcements in the early 1940s. While still usedprofessionally, reel-to-reel sound recordings have been replaced in homes with easier to handle, self-contained devices that give good sound reproduction. The most commonsuch device, until theCD became popular, was the twin hub cassette, in which thetape is permanently threaded on supply andtakeup reels and the entire unit is placed over shafts driven from the motor. For some years, there also was thesingle hub 8-track cartridge, which, although a bit bulkier and more complex, plays multichannel music with higher fidelity and is even easier to insert in the playback device than the cassette. A form of cart(ridge) machine is used for short audio recordings, usually commercials, in radio broadcasting. A digitalized system, DAT (digital audiotape), which canmake perfect copies (or dubs) of CDs or other DATs,
Appendix B Glossary
803
is technically available but has been held up in this country because of the apprehension of record companies and other copyright holders. Television or video recordings originally were made by the kinescope (television picture tube) recorder, in which a motion picture camera photographed the images on a special television picture tube of great brightness. The quality of the resulting kine was nothigh, partly because the U.S. television system scans 30 complete pictures per second but a sound movie camera photographs only 24 frames per second. There also were contrast and other problems. Color kinescope recordings were made as color television became common. While sometimes reruns were aired via kine, the primary use of this technique was archival, although it sometimes was used (in conjunction with a “hot” or one-minute film processor) to project sporting events in theaters, the earliest form of “pay-TV.” One advantage of kinescope recording was that, before electronic standards converters were developed, it could ignore the differences between different television standards such as NTSC, PAL and SECAM, and distribute in a “universal” film format. Even today,the technique has a growing number of adherents, since it is now possible to shoot, editand do full post-production in an alldigital electronic form, and then use laser scanners to create a HD version on 35 mm or 70 mm film almost identical to that which would have resulted from using film throughout. In the late 1950%magnetic videotape recording (VTR)was developed, revolutionizing the industry. The first bulky quad head or quadruplex videotape recorders used a revolving assembly of four record-playback heads over which 2-inch tape was transported at 15 (usually) or 7% inches per second (ips), with theheads briefly overlapping as they turned at high speed, providing a picture almost indistinguishable from “live.” Although now considered obsolete, the quad format, employing open reels rather than cartridges or cassettes, is still usedfor much archival and historic tape storage, since it was the de facto standard from 1956 until the late 1970s. (RCA and Ampex did have a 2” cassette system, with internal reels, used primarily for commercials.) Later, high band VTR, which used a highfrequency-l0 MHz-carrier, yielded a very high signal-to-noise ratio, and its excellent interference-free picture enabled more generations (successive duplicates) to be made from the original recording, or master. Color recording and electronic editing to the exact frame desired are now possible on even the relatively inexpensive helical scan VTRs used for industrial and educational purposes. In these VTRs the tape is wrappedin a spiral (helix) around a large-diameter, fixed drum within whicha record-playback head revolves. Helical scan VTRs, first in a 2” format, and then in1”or 1/2” formats, and 3/4” U-Matic cassette VCRs are much less expensive, recording for longer lengths of time than the now-obsolete quad head machines or early 1”professional helical scan models, but at theexpense of image quality. By the early 1980%professional videotape recording had adopted a 1”helical-scan standard (Type C) that permitted substantial savings in cost and weight and was usedwidely until thelate 1990s.
804
Appendix B Glossary
In the 1980s, the home VCR (videocassette recorder), in a variety of formats, such as W S and Beta (and more recently, Super-8 and S-VHS)became a very popular consumer item (see Appendix C). Although VHS and Beta engagedin a bitter marketing struggle,Sony threw in thetowel and abandoned the possibly better quality Beta in 1988, which was the end of the 1/2-inch-composite-analog-consumer-distribution-format competition. VCRs usually are used for time-shifting (recording for later playback) or for the playing of videocassettes of motion pictures rented or purchased from retail outlets-which has become a major industry in its o w n right. When combined with a small camera, these recorders are called camcorders and have replaced the home movie camera and projector. First used for stopaction recording during sporting events, various kinds of videodiscs-thin, flexible plastic discs used to record and play back video and audio material or other complicated processes-are now being used in the by magnetic, laser, home in the same way asmusical recordings, particularly in the DVD (digital video disk) format availablefiom video rental stores. Since there is noworldwide agreement on technical standards, even with videodisc's many potential m Some Audio
Recording Formats FrequencyUsualPlaying UsualSizeResponseTime(minutes, (Hz) side) one
(diameter) Speed Medium Standard lkanscription
Mechanical Mechanical
78.26 rpm 33% rpm
Wire recorder Long-playing
Magnetic Mechanical
33%
(LP1 45-rpm (RCA)
Mechanical rpm 45
Reel-to-reel
Magnetic
Cassette (micro size)
Magnetic
lo".12"
16"
(ET)
mm
2"
Laser optical 8.15 &sec Digital audiotape Magnetic
rpm 10". 12"
(DAT)
60
25 (12")
7"
1004,000 5
17hto 15 ips
7"
20-15,000
60 (3%
178and
21h"
x 4" 1%" x 2"
20-14.000
30-60
'5/1e
ips
15-20.000 70
120 disc Compact (CD1
100-6,OOO
20-18,000
2" X 3"
15-22,000 120
ips) 15 (15 ips)
Notes
Standard groove Standard groove broadcasting programs .01" thick wire Microgroove Microgroove for popular music: later 6016,000Hz W'wide magnetic tape: consumer can record Original frequency response was low; consumer can record Digital; playback only Digital cassette: record or playback
Note: This is not an exhaustive list. It is arranged chronologically. Some fonnats-like magnetic wire recorders and eight-track cassettes-have come and gone; others, such as 16-rpm records, never really had much use. Others were used for specialized purposes: 10" reels for professional audiotaping, reel-to-reel speeds as high as 60 ips, early field recordings on motion picture film. audio cartridges (carts) for broadcast commercials, and so on. Playback time for magnetic tape depends on the thickness of the tape and how much can be put on a reel or into a cassette. Some reel-to-reel and cassette formats permit multiple tracks of recording. Improvements were made to each format during its existence that enhanced audio fidelity, particularly to the audiocassette and the 45-rpm record, which now exists in a 12" format for high-fidelity professional useas well as in the format Familiar to consumers.
AppendixB Glossary
805
m Some Video Recording Formats
Medium
Reel, Cart, Cassette, or Disc
Usual Width 16 mm or 35 mm 2" 2"
Usual Playing Time (minutes) 60
Kinescope
Optical (film)
Reel
Quadruplex Helical scan Helical scan (types A, B, C) Cartridge Cassettes
Magnetic Magnetic Magnetic
Reel Reel Reel
Magnetic Magnetic
Cart Cassette
2" 2"
5-201
U-Matic (color under) Beta
Magnetic
Cassette
.75"
20-60
Magnetic Magnetic Magnetic
Cassette Cassette Cassette
.50"
270 360 20
Magnetic Magnetic Magnetic
Cassette Cassette Cassette
.50" .5 0" 8 mm
120
Optical or mechanical Magnetic Optical
Disc
7" diameter
120+
Reel Disc
1" 7" diameter
60
VHS Betacam
VHS-c
ED Beta S-VHS Video 8
Videodisc D-l, D-2, etc. DVD
1"
50" .50"
30-60 30-60-120 10-180
5-20
120+
Notes
Poor quality: now obsolete Broadcast use Industrial, broadcast use Mostly boradcast, some industrial use Carts and cassettes used by stations for commercials Limited broadcast use
Primarily home use Primarily home use Used for ENG and as camcorders Higher quality, but not compatible with earlier with designs: nonbroadcast Usually playback only Digital, broadcast use Usually for rented (laser) feature films
Note: Literally dozens of formats havebeen used for video recording. Most are mutually incompatible. Above are those most com[VTR) became possible monly found in television broadcasting stations,listed chronologically.When magnetic videotape recording in the late 1950% kinescope recordings became obsolete-but they maybe the only source for programs aired before 1960. The many motion picture film formats used by television news departments are not included here. Although some bmadcasting stations use home videocassette recorden [VCRs] for their news operations, these machines do not meetthe FCC's technical broadcasting standards.
advantages-inexpensive materials, simple duplication processes-it has not yet replaced videotape cartridge and videocassette systems forshort and even long messagesin home machines, but iscoming up fast. Although the use of time base correctors now permits relatively inexpensive VTRs (typically Betacams) to be used for over-the-air broadcast, particularly in ENG and EF'P applications, it seems probable that the industry will continue using 1" digital professional machine as its standard, although new professional formats appear almost as frequently as home VCR formats. The workhorse U-Matic format, typically for non-broadcast use, is being phased out, and its replacement is still uncertain. One difficulty with the lack of agreement on compatible VTR and VCR formats is that it frequently is virtually impossible to dub (or copy) from one to another unless the signal is separated into its luminance (monochromatic brightness) and chrominance (color) components, known as Y and C. Even then, dubbing often is quite difficult because of nonstandardized plugs, cables, and electronic parameters. Editing, however, has becomea matter of pushing a few buttons rather than physically slicing tape with a razor blade. Rectifier See VacuumTube.
806
Appendix B Glossary
Rediffusion See Cable. Reel-to-Reel See Recordings. Regenerative See Receiver. Register See Copyright. Relay See Network. Relay,Sounder See Circuit. Remote A broadcast or part of a broadcast that originates from outside the studio. In the United Kingdom, a remote is called an outside broadcast (OB). In the early days of radio, such a broadcast was called a Nemo, presumably reflecting telephone company usage-“not emanating main office”-although possibly associated with the “Little Nemo” comic strip about fanciful dreams off in the middle of nowhere. (See ENG and News.) Repeaters Unattended transmitters used to repeat the signal of a parent station. Used in television (also “satellites”) for locations without sufficient population to make a full-fledged station financially viable or, in FM radio or television, to fill in areas the parent station’s transmitter and antenna cannot cover because of mountainous terrain, etc. In the west, repeaters may be the only practical way to serve isolated small communities and homesteads with broadcast content. Residuals Payments made to actors and other artists for the airing of programs in syndication or otherwise beyond the original number of contracted showings. Resolution See Television Signals. ResonatingFrequency See Waves. Retransmission consent Under FCC rules, a cable system needs to secure retransmission consent for transmission of programs aired on local television stations. This rule, and “must-carry” (a requirement that cable systems carry all local stations), are major negotiation points between the cable and thetelevision broadcast industries, with theviewing public caught in the middle. ReturnWire See Circuit. Reuters See News. rf (radio frequency) See Receiver. RotaryArc See Transmitter. Royalties See Invention. RTNDA See Radio-Television News Directors Association. Safety and Special Services The FCC traditionally divided the radio stations under its supervision intobroadcasting, common carrier,and safety and special services-a term that includesevery other kind of user, from amateur topolice. Other titles (suchas “Mobile”)may be used for FCC bureaus. SAG (Screen Actors Guild) See Unions.
Appendix B Glossary
807
Satellite A body in orbit around another, larger body. Often used in a politicalsense (“the former Soviet Union’s satellites of Poland, East Germany.. .”), the word has two meanings that concern broadcasting. First, artificial space communications satellites are launched by rocket into anorbit approximately 22,300 miles above the equator. This height and orbit enable them to remain stationary (synchronous) with respect to one spot on the earth’s surface and high enough to “see” roughly one third of that surface. Hence, line-of-sight radio frequencies can be used to cover entire continents or oceans. mically, each channel requires a separate transponder (a receiver picking up thesignal from earth, which responds by changing its frequency and retransmitting the signal to many terrestrial television receive-only (TVRO) dishes located at television stations and cable system head ends). Thesignal from earth to satellite is called an uplink; the return signal-particularly when used for SNG (satellite news-gathering) is called a downlink. Most satellite relays operate on SHF microwave frequencies, such as the Ku- and C-bands (nomenclature originally applied to radar). These satellites can relay virtually any kind of electronic signal-telephone, television-point to point from one large earth station to another. They also are successfully used with small receive-only dish antennas at pay-cable (see Pay-TV) installations, networkaffiliates, and remote villages and towns andby more than a million private citizens in areas where overthe-air and cable signals are hard to get. DBS,or direct satellite-to-home broadcasting, appears tobe some years away because of the needto increase rooftops, but isbeing power in the satellite and provide special antennas on introduced abroad. In reaction to the many dishes in private hands, networks and pay-cable companies have taken to scrambling their signals so their programs cannot be viewed without a special decoder. Second, a satellite is a television station that does not originate its own programming but retransmits theprograms of a parent station. Satellite television stations operate on a channel regularly assigned to their community and not on the parent station’s channel, as doboosters, or on one of the upperUHF television channels withvery low power, as dotranslators, which “translate” the parent station’s signal up to the high UHF. Scanning See Television’s Early Technological Development and Television Signals. Scrambling See Pay-TV. Screen Directors Guild See Unions, SECAM (Sequential Couleur h M6moire) See Television Signals. SecondaryStation See Channel. Selectivity See Receiver. Selenium See Television’s Early Technological Development. Semaphore A device for sending coded signals visually by means of flags, lights, or mechanically moving arms. Developed to a high degree of
808
Appendix B Glossary
efficiency in the century before introduction of the electrical telegraph, semaphore today survives to a limited extent in the navy, where signal lamps using Morse code have taken over from the sailor who holds two small flags and moves them to a different position for each letter, and in railroading, which uses a simple code based on theposition, ranging from vertical to horizontal, of short paddles mounted ontowers. Sensitivity See Receiver. Series See Circuit. SESAC (originally Society of European Stage Authors and Composers) See Copyright. Service Drops See Cable. Share See Ratings. Short-circuit See Circuit. Shortwave See Waves. Sidebands See Modulation. Sign See Communication. Signal Sometimes referring to any transmission (including one without intentionally encoded information or desire for communication),the term generally refers either to a message or to the actual electromagnetic wave propagated from a transmitter. The mere presence of a carrier wave signal indicates the importantfact that a transmitter exists, but, technically, information is carried in the modulation of the signal, not in the signal itself. Noise in a channel is that whichcan interfere with reception of a message. Generally, noise is either electrical/mechanical (such as static) or semantic (imperfect agreement on the connotations and denotations of symbols or signs). The signal-to-noise ratio ( S / N )is often used to describe the relative amount of interference in a given channel. “Silent Night” See DX-ing. Single Sideband (SSB) See Modulation. Skip See Waves. Skywave See Waves. SMATV (Satellite Master Antenna Television) See Cable. SNG Satellite news-gathering. Solid State, Transistor, Chip See Transmitter and Vacuum Tube. Space Communications Satellite See Satellite. SparkGap See Transmitter. Spectrum See Waves and Bandwidth. Spin-off See Programming. Sponsored See Network.
AppendixB Glossary
809
Spots See Network. Static See Allocation and Signal. Station The place or position from which a service is provided or operations are directed; in other words, a transmitting station in a given radiocommunication service. A receiving station is the place-the home, the car-where a receiver is located. In recent years, the general public has mistakenly taken to calling their cable systems “stations.” Station Break, Station ID See Network. Stereophonic See Modulation. Stereoscopic See Television Signals. Storecasting See Modulation. Subcarriers See Modulation. Subsidiary Communications Authorization (SCA) See Modulation. Superheterodyne See Receiver. Superpower In the United States, any standard (AM) broadcast station that uses more than 50 kw of power. Only one station, WLW (Cincinnati), was operating with such power (500 kW), from 1935 to 1939, after which the U.S. Senate frowned on superpower. However, the proposal remains active, and high-powered stations operate in other countries, notably Cuba and Mexico. In the 192Os,the term referred to lesser amounts of power. Superregenerative See Receiver. Superstation One of a half-dozen independent (non-network-affiliated) broadcasting stations (the first was Ted Turner’s WTBS in Atlanta) whose programs are uplinked to a satellite and then made available to cable system operators for a small sum per subscriber per month. Generally, these stations (WGN in Chicago, WPIX and WWOR in New York, and KPIX in San Francisco, for example) feature movies, old reruns, and sporting events. Sustaining See Network. Symbol See Communication. Synchronizing See Television Signals. Synchronous See Satellite. Syndicated See Programming. Talent A generic term referring to a person or persons appearing on radio or television as actor, announcer, singer, performer, on-air news reporter, and so forth. This meaning is the one most commonly used in broadcasting; it probably is derived as a sarcastic extension of the dictionary definition, which refers to persons with gifts, aptitudes, or abilities of a superior quality. Tapper See Receiver.
810
Appendix B Glossary
Telecine A film chain; a facility at a station or network used for the projection of motion picture film overa television system. Consists of a projector or projectors, an optical multiplexer and a television camera. Telecommunications Any transmission, emission, or reception of signs, signals, writing, images, and sounds or intelligence of any nature by wire, radio, visual, or other electromagnetic systems of communication An implication from the first part of the word(tele- = far, distant) is that thecommunication takes place over a substantial distance. Telegraphy A telecommunication system for the transmission of written matter by a signal code, through a wire channel unless the term radiotelegraphy is usedto signify use of a radiocommunication channel. Telephony A telecommunication system for the transmission of speech or other sounds, through a wire channel unless the term radiotelephony is used to signify use of a radiocommunication channel. Teletext,Videotex Now obsolescent techniques for sending numerous “pages” to the home, generally using a television set as the display device. Teletext used a vertical bkanking interval (VBI) line, was one-way, and sent up to 200 pages in sequence, over and over again. Videotex usually was transmitted over a wider cable channel and was interactive to the extent that the viewer could select which of thousands of pages of news, weather, sports scores, airline schedules, menus, and so forth, were desired. Such systems (such asCEEFAX) were in use in the United Kingdom by both BBC and ITA (using different systems), and France from the 1970s into the 199Os, but were never successfully innovated in the United States. Although touted as a potential major component of the “wired city” concept of the 1960s, these technologies have largely been superceded by the more-flexible Internet. Teletype See News Television A telecommunication system for the transmission of transient images of fixed or moving objects; also the broadcast service of the same name, which includes both the picture and theaccompanying sound. Television CameraTubes Although the original television pickup devices, which converted light energy into electrical energy, were mechanical (see Television’s Early Technological Development), all-electronic camera tubes were devised and introduced in the late 1930s. These were generally of a storage-discharge type, storing the light falling on the tube face and then discharging it into thesystem by scanning the storage element with an electron beam. The all-electronic camera tubes included theIconoscope of Vladimir Zworykin (RCA) and the Image Dissector of Philo Farnsworth. These were combined into the orthicon and image orthicon tubes by RCA engineers in the early 1940s. The image orthicon (IOor orth) tube, in use for more than a quarter-century, was replaced for high-quality broadcast uses by the Plumbicon, which useda lead oxide-Pb is thesymbol for lead-for a key part, and for industrial and other nonbroadcast uses by the lower
AppendixB Glossary
811
resolution quality (see Television Signals) and less sensitive-needing more light for a good picture--vidicon tube The vidicon is used in film chains-motion picture and slide projectors are multiplexed through an optical device that focuses two or more sources of program material at a small vidicon television camera-in television studios because light levels from filmor slide projectors are high and canbe controlled. A kinescope is either a television picture tube used at the receiver end of the system or a kind of television recording. The solidstate CCD or controlled capacitance discharge device is becoming popular for ENG, EFP, and camcorderuse. It is rugged and very lightweight, although it needs some picture quality improvement before it replaces tubes in studiocameras. While the better CCD devices are getting close to comparability with three- or four-tube cameras, even newer solidstate imaging devices such as MOS are in the wings. Television’s Early Technological Development Television’s first practical technological development was recorded when English telegraph engineer Joseph May discovered in 1873 that the element selenium was capable of producing small amounts of electricity in direct response to the amount of light falling on it. His supervisor, Willoughby Smith, notified the prestigious Society of Telegraph Engineers in England, and today both men are given credit for the discovery. Within a couple of years, various inventors designed methods for putting this discovery to work in a television system. Although the actual devices were imperfect, the principles were straightforward. G. R. Carey of Boston in 1877 proposed a crude imitation of the human eye: a bank of selenium cells and lamps that couldbe used for breaking up pictures and sending the elementsover wire. Three years later English scientists Ayrton and Perry tried out such a mosaic device. Fournier and Rignoux first transmitted actual images in France in 1906. Following the telephone’s invenof tion by Alexander Graham Bell, who hadalso experimented with the use light waves rather than wire to transmit voice, inventors in several countries proposed or demonstrated a rash of television-or still-picture, nonmoving, facsimile-devices. Some of these, like today’s animated advertising signs, used a wire to connect each selenium cell-the pickup device, analogous to one facet of the eye-with a small electric lamp-the reproduction device, in a mosaic. The more lamps, themore detail could be put into thepicture. In some versions the lamps simply were “on” or “off,” while in others their intensity varied in direct response to the different intensities of light projected on each cell. This approach, experimented with for many years, required an impractical amountof wiring and a mechanically awkward arrangement of cells and lamps. To reproduce a picture equal in detail to a 23-inch television screenof today would requiremore than 350,000 lamps, eachnot more than one-fortieth of an inch in diameter! French scientist Maurice Leblanc developed a technique in 1880 to avoid this quandary, using the principleof scanning, in whicheach picture
812
Appendix B Glossary
element was viewed successively rather than all at once as in themosaic devices. Each picture was divided into lines and each line into minute segments. His approach was analogous to the solution of a similarbandwidth problem in telegraphy. By 1884 basic principles of scanning had been incorporated in some mechanical devices L. B. Atkinson’s apparatus employed a drum fitted with tangential mirrors, each successive mirror being oriented through a small angle so that, as the drum rotated, the picture would be scanned in a series of lines that would be projected on a single selenium cell. The resulting electrical output of the cell could be transmitted over a wire circuit, as at this timethere were no wireless transmission devices. As with all television systems, rotating drums at both endsof the circuit had to be synchronized in order to transmit the image successfully. No full description of Atkinson’s device was published, and many writers give credit for the mirror drum to a European, Lazare Weiller,who proposed a similarsystem in 1889. The scanning disc and other devices quickly overshadowed the mirror drum, although experimenters used it for many years-E. F. W. Alexanderson of General Electric as lateas 1927. The scanning disc, basis for almost all mechanical scanning systems for several decades, was invented in 1883 and patented in early 1884 in Germany by Paul Nipkow. Lacking the money to extend the patent on his “electrical telescope,’’ he allowed it to lapse and worked for the next 32 years as an engineer for a German railway signal company. Although he lived until 1940 and is generally recognized as the inventor of a system that could reproduce moving objects, Nipkow never built a working model of a complete transmission-reception system, since he lacked means of synchronizing the discs, adequate light sources, amplifiers, photocells, and all the sensitive andincreasingly complicated tools of later experimenters. The Nipkow disc looked like a phonograph record, perforated with a a of an inchcloser to the censingle spiral of small holes, each holefraction ter of the disc and fraction a of an inchfarther along the rimof the disc than the preceding one. When the disc was placed directly between a narrowbeam light source (although sunlight and gas lamps were used, the electric lamp was the most common) and an object and then rotated, the light would shine through only one hole at atime. In one complete turn, thenarrow beam would illuminate every part of the object, moving across it in what appeared, because of the speed of rotation and the persistence of vision, as slightly curved lines or streaks. In practice, the light merely illuminated the object, and a seleniumcell-after 1888,a more sensitive device called a photocell-“looked” at thescene through each hole as the disc revolved. At the receiving end, a neon lampvaried rapidly in brightness in response to the current produced by the photocell, andthe viewer observed it through a Nipkow disc rotating in synchronization with the disc at the other endof the circuit. A mask, of the same size at both ends of the circuit, blocked out part of the disc and focused both the cell and theviewer’s eye
Appendix B Glossary
813
at the same relative place. Persistence of vision caused the combination of varying-intensity neon lamp and rapidly spinning disc to reproduce a crude picture of the original object in the viewer’s brain. The picture, at first, was only an inchor two wide,being limited chiefly by thesize of the holes, the diameter of the disc, and the speed of rotation-each of which led to mechanical problems. (See also Bandwidth, Television Signals, and Television Camera Tubes.) Television Signals The resolution or sharpness of a television picture is measured in terms of picture elements, or pixels. In gross terms, the resolution of a picture is the product of the numberof horizontal lines scanned for each picture times the number of complete pictures, sometimes called frames, analogous to frames of a motion picture film, per second. However, not only are some cameras, recorders, and receivers incapable of providing maximum resolution, but the 525 lines used in an NTSC (National Television System Committee) system are interlaced-much as one interlaces his or her fingers by placing those on one hand between those on the other. First the odd-numbered linesare transmitted and then theeven-numbered so that in one second we actually see 60 pictures or Felds of 262% lines each. Because of the persistence of vision in human beings, transmission of 60 half-fieldsproduces a moving picture withbetter resolution, particularly when something on thescreen is moving rapidly, than a 30-frame noninterlaced system. The use of 60 pictures per second originally permitted lockat home ing or synchronizing the picture in the studio to the picture through the 60 Hz power line frequency. ( I n much of the world, 50 Hz power is used, resulting in 50-field, 25-frametelevision in those countries.) A strong synchronizing signal, produced by a synchronizing or sync generator at the studio or transmitter, does most of the work in keeping the picture at home in step with the one in the studio. In scanning a scene, the beam of electrons in a television camera tube sweeps across the target, onto which thescene is focused by a lens, from left to right and then, during the blanking interval, returns to the left without generating a signal, drops down two linesbecause of interlacing, and sweeps across again. The aspect ratio, or the ratio of horizontal to vertical size, of a television picture is 4:3. Although three-dimensional (3-0)or stereoscopic television was experimented with as early as 1926, it is not now inuse. (SeeHDTV.) Now common, color was also the subject of experiments in the 1920s. In early times the image was focused through a spinning color wheel that fed each primary color in turn toone pickup tube. A modern studiocolor television system uses a system of filters to feed primary colors-red, green, blue, or sometimes their complements-to each of three camera tubes. Less expensive industrial systems use one-tube cameras. Very little additional bandwidth is required for the colorburst signal component of a television signal, since it ismerely an instruction to the receiving set to produce various strengths of color signal at a given instant. Standards differ fortelevision around the world; some countries use our NTSC (525 lines, 30 frames);
814
Appendix
I
B Glossary
1.25
MHz
5.75
MHz
6
MHz Idealized Television Channel
eastern Europe uses one form of 625/25 and western Europe a slightly different one. The British have closed out the 405/25 system they had used since the 1930s in favor of 625/25, and the French also have dropped their 819/25 system. Other standards were used prior to World War 11. Threecolor systems-NTSC, PAL, originally a German system, and the French SECAM, also used in Russia-are in use. Fortunately, it is now possible (but complex and often expensive) to convert programming made on one standard to another. The field sequentialsystem was the original color system, since the lower speeds (60 fields rather than 15,750 lines per minute) were easier to use with mechanical color wheels. The dot sequential system is presently in use, since color picture tubes are now made with hundreds of little triangles consisting of red, green, and blue chemical phosphor dots that glow when hitby the focused electrons from the guns inthe tube. However, the camera actually used by the astronauts during moon landings in the early 1970s was field sequential. The channel for a 525130 system is 6 MHz wide, but the actual picture needs only approximately 4 MHz. The rest of the channel is taken up with the sound portion of the transmission, guard bandsto reduce interference from stations on adjoining frequencies, and a vestigial sideband-when present television transmission standards were adopted in 1941, NTSC engineers attempted to save frequency space by using only one sideband and a carrier, but the state of the art forced them to "waste" 1.25 MHz by providing a second sideband of reduced size and noappreciable value, Time-shifting See Recordings. "kadeSecret See Invention. "kansceivers See Transmitter.
Appendix B Glossary
815
Transducer A device for converting one form of energy to another (as a microphone transduces sound energy into electrical energy). lkansistor See Vacuum Tube. Transitcasting See Modulation. Translators See Satellite. Transmitter A device for radiating signals that might be received at a distant location. (The term is also used for the portion of a telephone that is spoken into.) It is fed or controlled by a microphone or other speech input equipment, or a telegraph key, or some other source of signal, and feeds to an antenna a composite signal that usually consists of a carrier wave, modintelligence that one desires to transulated by (hassuperimposed on it) the mit or send. The earliest radiotelegraph transmitters employed thespark-gap principle wherebya high current or voltage jumps across a gap in a wire or other conductor. This spark will radiate over a wide bandof frequencies, much as a bolt of lightning does. But when tuned to some extent and fed into an antenna of a certain wavelength, the spark cannot be detected over nearly as wide a band as lightning, thus conserving spectrum space. In the earliest transmitters, the spark was controlled by a telegraph key to produce dots and dashes. The rotary arc transmitters, developed later, were motors designed to produce an almost continuous arc, which could be fed to the antenna by a key. Because arcs offered a gentler approach to radiotelegraph than the spark gap, they-particularly the Poulsen arc-continued in use into the 1930s, generally aboard ships needing medium-range transmissions. The Alexanderson and other alternators (alternating current generators) were often pickup-truck-sized rotary electrical generators driven by motors at speeds, and hence frequencies, so high that they could send energy a long distance by radiation from an antenna withoutusing wires. The Alexanderson alternator spun so fast that the output wasof a frequency of alternations more than one thousand times that of the 60 Hz power supplied to houses today. Designed fortransoceanic communication from k e d installations on shore, it was very reliable, efficient, and expensive. The current from the alternator could be fed to an antenna much more efficiently than could the broader signal from an arc transmitter, and attempts to secure exclusive use of the Alexanderson machine played an important role in establishing radio in this country. Just before World War I the first practical high-powered vacuum-tube transmitters were tried, and a few yearslater they were placed in commercial service. Vacuum tubes permitted virtually silent operation, voice transmissions, and smaller, even mobileor portable, size. Although many low-power transmitters and transceivers-transmitter and receiver combined in a single unit, such as a walkie-talkie or a Citizens Band set-have used solid state technology for years, high-power broadcast transmitters with solid state devices rather than vacuumtubes were not available until themid-1970s.
816
Appendix B Glossary
Early broadcast transmitters did not have many features we take for granted, such as limiters to prevent overloading or overmodulating the transmitter. Until 1925 or so transmitters were tuned, much as a radio receiver is tuned, and often drifted off frequency and caused interference to other stations. Eventually, crystal control was perfected-a technique based on the capacity of a quartz crystal of a given thickness to force a current flowing through it to vibrate at a certain, determined frequency. When mounted in an enclosure that kept the crystal at an even temperature and specprevented heat expansionor contraction, theunit held the station a at ified frequency. Transmitters with crystal control for broadcast and other uses caused less interference. One of the FRC’s first orders of 1927 required crystal control and other standards for broadcast transmitters. A technique known as precision offset carrier permits television stations on the same channel to be located a few miles closer to each other withoutinterference. (See also Modulation, Waves.) Pansmitting Station See Station. Dansponder See Satellite. ’Jkiode See Vacuum Tube. Popospheric Forward Scatter See Waves. Thnk Lines See Cable. TVRO (television receive-only satellite earth station) See Satellite. IItvo-wayCable System See Cable. Unions Labor unions are plentiful in broadcasting and even more plentiful in themotion picture industry, which provides so many television programs. Among the most prominent are AFTRA, the American Federation of Television and Radio Artists (formerly AFRA), which serves announcers, actors, and other talent; AFM, the American Federation of Musicians, which has jurisdiction over virtually all musicians and a small number of turntable operators in Chicago radio stations; IATSE, the International Alliance of Theatrical Stage Employees and Moving Picture Machine Operators of the United States and Canada, whose members range from stagehands onBroadway and motion picture projectionists to television technical crews (camera operators and so forth), particularly in New York; IBEW, the International Brotherhood of Electrical Workers, which also represents many technicians; and NABET, the National Association of Broadcast Employees and Technicians. Originally NABET stood for National Association of Broadcast Engineers and Technicians; the change from “engineers” to “employees” marked the trend in many unions to represent a broad range of job categories in a given station. A number of actors and singers belong to either Actors Equity or AGVA, the American Guild of Variety Artists, The Screen Actors Guild (SAG),the Writers Guild of America (West and East), and the Screen Directors Guild also have jurisdictions in broadcasting, but
Appendix B Glossary
817
only the larger stations, networks, and program packagers, particularly those based in Hollywood, have direct connections with them. Although the networks may deal with dozens of different unions, most stations contract with only one or two or even none, with the technical and clerical staffs often represented by the same union. A few union contracts may affect the entire industry, but most are negotiated for the individualmarket. A professional association, such as the Radio Television News Directors Association (RTNDA),is not, strictly speaking, a union organized for collective bargaining purposes. UP1 (United Press International) See News. UPN (United Paramount Network) See Network. Uplink See Satellite. URL (Uniform Resource Locator) See Internet. Vacuum Tube Before the transistor and integrated solid state circuits and devices came into almost universal use in the 1960s and 1970s, respectively, the vacuum tube performed the essential functions of electronic detection and amplification. Today, only the picture tube in a television set is still a vacuumtube. Modern solid state devices-the transistor and later developments such as integrated circuit chips-are essentially grown in laboratories and then cut apart, rather than manufactured,but fill the same functions as the vacuum tube. Yet, without some kind of one-way valve-still the name for the vacuum tube in Great Britain and elsewhere-to permit only the positive half of each cycle of radio-frequency alternating current waves to pass, it would be impossible to demodulate or permit the audio-frequency signal superimposed on theradio-frequency waves to be detected. (A rectifier, used to convert alternating current [AC]to direct current [DC]for power supplies and other uses, works the same way, whether vacuum tube or solid state.) The crystal set, used as a receiver from the earliest days of radio until the 1930s, was a primitive solid state device that used as a detector a piece of galena or some other crystalline ore that would allow current to pass in only one direction. The other major function of the vacuum tube,one that permittedtoday’s selectivity and sensitivity, is amplification, the strengthening of a signal or current without otherwise changing its characteristics-much as power steering in anautomobile amplifies the turning motions of the driver. The principles of vacuum-tube theory are simple: opposites attract and likes repel, just as with apair of bar magnets; electrons are negative by definition; and the amount of repelling or attracting is roughly proportional to the voltage applied to that part of the tube. Thomas Alva Edison first noticed the actions of electrons within a glass tube evacuated of air. The Edison eflectis theblackening of the glass wall of a tube caused by the electrons boiling off the glowing wire of the filament within an electric light
AppendixB Glossary
819
special circuits in New York and other cities with large concentrations of media and advertising firms. Videodiscs See Recordings. Video on Demand A form of pay-cable, permitting the viewer to select the starting time of movies. VideoStreaming See Internet. Videotape Recording (VTR) See Recordings. Videotex See Teletext. Vidicon See Television Camera Tubes. Volts See Circuit. WARC (World Administrative Radio Conference) See International Telecommunication Union. Watts See Circuit. Waves, Propagation, Frequency, Wavelength All electromagnetic waves or electromagnetic energies travel at 300,000 kilometers (roughly 186,300 miles) per second in free space, and a fraction slower in wire or other materials. What distinguishes these wavesor parts of the electromagnetic spectrum-radio, infrared, visible light, ultraviolet,X-rays-from one another is their length, the actual distance from crest to crest or trough to trough. If one uses the analogy of water waves traveling at a constant speed breaking on a seacoast, it becomes obvious that as the wavelength grows, the number of waves per unit of time will drop proportionately, and vice versa. Hence, longwave = low frequency; shortwave = high frequency; microwave = upper ultrahigh frequency or beyond. (See chart, in meters, times frepage 821.) Further, since wavelength, measured quency, measured in thousandsof cycles per second, equals300,000-the speed of light or electromagnetic radiation in kilometers per second-we find that the wavelength of frequencies used in the standard ( A M ) broadcast band ranges from more than 555 meters (approximately six football fields) long at 540 kHz down to only 187 meters at 1,600 kHz. As discussed under antenna, this has implications for equipment; a half-wave antenna in the middle of the very high-frequency (VHF) band usedfor FM radio is only five feet long. Because of the small sizeof tuning components at VHF or UHF frequencies (much as a combination of thickness and length of a musical tuning fork determines its pitch, so does a combination of two electrical values, capacitance and inductance, determine the resonating frequency of a piece of radio apparatus), the equipment is prone to drift off frequency as it heats up and metal expands. This is why early FM sets needed to be retuned after a period of use. Later sets avoided this problem with a combinationof compensating circuits known as automatic frequencycontrol (AFC) and the nonheatingcharacteristics of most transistors.
820
Appendix B Glossary
Different wavelengths have different characteristics. Some-visible light-can be perceived directly by our senses but do not penetrate solid objects in the way that X-rays can. Some need a pathway, such as the wire used for 60 Hz electrical power, while others-radio and light-cantravel or radiate in free space or atmosphere. Some will attenuatethat is, lose strength-very rapidly with distance, while others, if aimed or focused or guided carefully, will lose very little strength. Within that part of the electromagnetic spectrum used for radiocommunication, standard nomenclatures and characteristics apply (see box onpage 821). Radio waves occupy the electromagnetic spectrum below 100,000MHz (megahertz, formerly designated mc, or megacycles per second). Above that part of the electromagnetic spectrum are infrared waves or rays, visible light (roughly lo9 Hz), ultraviolet rays, X-rays, gammarays, and cosmic rays. The standard ( A M ) radio band runs between 535 and 1,705kHz (kiloHertz). F M radio broadcasting runs between 88 and 108 MHz; noncommercial educational FM is between 88 and 92 MHz. VHF television is in three and 174-216 MHz (channels 24,545,and 7-13). segments: 54-72, 76-88, UHF television (and some other services near the upper end) occupies the band between 470 and 806 MHz (channels 14-69). AM radio uses a bandwidth of 10 kHz, FM radio a bandwidth of 200 kT3z, and television a bandwidth of 6 MHz. Radio waves have three major means of propagation, and the efficiency of each varies with the frequency of the wave. Groundwave, for example, which hugs and travels along the earth’s surface, is good for long-distance communication-up to worldwide in some cases-particularly when the ground conductivitynear thetransmitter is high, as is the extreme case with salt water, on frequencies from ELF into the medium-wave standard(AM) broadcast band. From about the middle of the standard broadcast band through the shortwave band, to about 30 MHz or even a little beyond, the most effective long-range mode is skywave. These wavelengths are such that signals bounce off the ionized layers that surround the earth, the ionosphere, at between 50 and 250 miles of altitude, much asa flashlight beam will bounce off a mirror. The bounce or skip may be calculated-the angle of incidence is equal to the angle of reflection, and the height is knownand the desired target area pinpointed by directional antenna arrays-a technique usedfor international shortwave but not for domestic broadcasting. Skywave useful range varies with time of day, season, and sunspot cycle. At high frequencies and above, groundwave is limited to only a few miles under normal conditions. Above the frequencies at which skywave is reliable, radio propagation is limited to about 125 percent of the distance to the optical horizon or line-of-sight. This direct wave propagation is the reason for the limitedrange of FM and television stations, whoseantennas are rarely tall enough to send good signals more than 100 miles. A fourth transmission mode, tropospheric forward scatter, can be used for extensive distances in very expensive and huge military point-to-point systems at VHF
er
Appendix B Glossary
Scale
kHIz
Wavelength Scale
30
300
3,000
MHz
10,000 meterS
1000 m.
100m. 10m.
300
3,000
2
1 m.
10cm.
1 cm.
821
N IHZ
Band Name I
$ Skywave 0 I
, ,
-
Direct Wave Legend
VLF (very IOW frequency)below 30 kHz Longwave LF (lowfrequencyl30 to 30OkHz MF (mediumfrequency) 300 to 3,000 kHz(3MHz) Medium Wave HF (hlghfrequency)3 to 30 MHz Shortwave VHF (very high frequency)30 to 300 MHz UHF (ultra hlgh frequency)300 to 3,000 MHz(3GHz) SHF (super high frequency) 3.000 to 30.000 MHz EHF (extremely high frequency) 30.000 to 300,000 MHz (kilo P 1,000; mega 1.000.000:giga 1.000.000.000~
-
-
A
LongRange (500 miles or morel B Moderate to Short Range Over Land, Moderately Long Range Over Water C ShortRangeOverLand.ModerateRangeOverWater (50 milesorless) DShortRange E Short Range, Day Medium F Range, Day G Long Range, Day Medium H Range, Night I Long Range, Night
Wave
Ground
Receiver Location
Transmitter Location
___ "_"
Receiver Location
Transmitter Location
Skywave
-""--"-"__ ... ---.."__ _.I
x.
)o"osphere Transmitter Locatlon
Source: Adapted from President's Communications Policy Board, TeZecommunications:AProgramfor Progress (Washington: Government Printing Office, 1951),page 22.
822
Appendix B Glossary
frequencies and beyond. It scatters and bounces through the troposphere, which extends downward to the earth’s surface. Space communication satellites use frequencies in this quasi-optical range because, although far away in distance, they have an unobstructed line of sight to the earth station antenna-over one-third of the globe. Since on almost any band, the lower the frequency, the higher the practical range-partly due to greater ease of designing equipment for frequencies that are familiar and easier to work with-television channels 2-6 often may be received for a greater distance than channels 7-13, and much farther away than frequently more powerful UHF television stations. This inequality in technical facilities for the same category or service of stations on the same band leads to economic, and consequently political, problems, particularly with respect to expect more rethe standard ( A M ) band, where stations at the low end can liable groundwave coverage overa radius of around 100 miles than those at the high end. (See also Bandwidth, Channel, and Modulation.) W B Warner Brothers Network See Network. Web or Web Site See Internet. “Webs” See Network. Webcasting A term referring to the use of the Internet for broadcast-like transmissions to whomever may wish to log on. Whip See Antenna. “WiredCity” See Cable. Wireless See Radio. WirelessCable See MDS. Wirephoto See Facsimile. Wire Services See News. WorldWideWeb See Internet. Writers Guild of America See Unions.
823
Useful Toolsfor Historical Comparison 1920-2000 826 1. Number of Stations: 1921-2000 826 A.AM Radio Stations through 1940 827 B. Broadcasting Stations since 1941 827 2. Network Afiliates: 1927-2000 829 A. Commercial Radio Networks: 1927-1964 830 B. Commercial Radio Networks: 1965-1988 832 C. NBC Red and Blue Radio Networks: 1927-1941 833 D. Commercial Television Network Affiliates: 1947-1988 E. Public Broadcasting Network Member Stations:
834
1970-2000 836
3. BroadcastlCable Revenue: 1927-2000 837 A. Radio Advertising: 1927-2000 838 B. Television Advertising: 1949-1979 840 C. Television/Cable Advertising: 1980-2000 842 D. Public Broadcasting Revenue: 1970-1999 843 4. Radio Programming: 1927-1999 843 A. Evening Network Radio Programs: 1927-1956 844 B. Daytime Network Radio Programs: 1927-1956 846 C. Network Radio Programs: Summary 1927-1956 846 D. Network Radio Programs: Percentages 1929-1956 848 E. Radio Station Formats: 1968-1999 849 5. TelevisionProgramming: 1949-2000 850 A. Evening Network Television Programs: 1949-2001 852 B. Daytime Network Television Programs: 1949-1973 854 C. Network Television Programs: Summary 1949-1973 856 D. Network Television Prime-Time Program Types: 1973-1995 858
E. Network Television Daytime Program Types: 1973-1987 F. Public Television Programming: 1964-1996 860 G. Television Coverage of Presidential Elections: 1952-1996861
6. Radio Receivers and Audio Market: 1922-1998
861
A. Ownership of Radio Receivers: 1922-1959 862 B. Household Audio Market since 1960 863 824
859
Appendix C Historical Statistics on ElectronicMedia
7. Television Receivers and Wdeo Market:1946-2000
825
863
A. Ownership of Television Receivers: 1946-2000 864 B. Household Video Market since 1975 866 8. Using Electronic Media: 1931-1999 867 A. Hours of Radio-Television Use: 1931-1999 867 B. Television Channels Receivable: 1964-1999868 C. Broadcast and Cable Viewing Share: 1980-1999 869 9. Growth of Cable Television: 1952-2000 870 A. CableTelevisionSystems: 1952-1969870 B. Cable Television Systems since 1970 871 C. Selected Cable Network Services: 1980-2000 872 D. Concentration of Cable System Ownership: 1970-1999 873 10. Growth of Satellite Distribution: 1975-2000 874 11. Electronic Media Employment and Regulation:1925-2000 874
The following tables provide an overall view of many aspects of broadcast and cable history. Some of these data originally were first assembled by L. W. Lichty and C. H. Sterling in 1967-68; a few were published in different form in Lichty and Topping (1975); and more extended information on many categories appears in Sterling (1984). Specific sources are shown for all tables, with a brief form used if the itemis listed in the bibliography (Appendix D), ora full citation if not. Three points concerning all the tables: First, we have not noted all the exceptions or special cases that may occur but have pinpointed the more important. Second, where no information is shown, wehave used the following system: blank space
na
Indicatesno such information (i.e., no television stations in 1921). Zero or none. Data unavailable, though theoretically the item service did exist or may have existed.
or
Third, and an unfortunate measure of the times, we have found itincreasingly difficult to obtain information to update manytables. Where data was plentiful and often freewhen wefirst wrote Stay Zlzned, increasingly information is considered proprietary and is available only at often very high cost, or is no longer collected at all. Most of the FCC’s broadcast and cable data gathering, for example, ceased in the early 1980s as a part of the larger trend to deregulation. You will find little information concerning computers or the Internet here, as data covering both is both inconsistent and poorly collected. Maybe next time-stay tuned.
826
Appendix C HistoricalStatistics on ElectronicMedia
Useful Tools for Historical Comparison: 1920-2000 This initial table offers basic data on the U.S. population, the total number of households in the country, and the consumer price index for every five years from 1920 through 2000. The population and household data is useful when considering the ownership of radio and television receivers, for example, or the penetration of other services. The Consumer Price Index figures (1982-84 = 100)allow one to determine a rough estimation of the impact of inflation on the actual dollar figures shown in later tables or referred to in the text. For example, to determine what financial data shown for 1950 means in terms of 2000 dollar values, divide the 1950 CPI index figure (24.1)into thatfor 2000 (172.2)to get 7.1 and thenmultiply any 1950 dollar figure by 7.1.To more easily determine the constant dollar value for any year to any other year, see the Bureau of Labor Statistics “instant calculator” available at http://stats.bls.gov/cpihome.htm. U.S.Population Year
(millions)
1920 1925 1930 1935 1940 1945 1950 1955 1960 1965 1970 1975 1980 1985 1990 1995 2000
106.5 115.8 123.2 127.4 132.1 139.9 151.7 165.3 180.7 194.3 204.9 216.0 227.7 238.5 250.0 263.1 281.4
U.S. Households (millions) 24.5 27.5 30.0 31.9 35.2 37.5 43.6 47.9 52.8 57.3 62.9 71.1 80.8 86.8 93.3 99.0 103.9(1999)
Consumer Price Index (1982-84 = 100)
20.0 17.5 16.7 13.7 14.0 18.0 24.1 26.8 29.6 31.5 38.8 53.8 82.4 107.6 130.7 152.4 172.2
Sources: Population and households from U.S. Census Bureau; Consumer Price Index from U.S. Bureau of Labor Statistics, “Consumer Price Index, All Consumers, 1982-84 = 100” available at ftp://ftp.bls.gov/pub/special.requests/cpi/cpiai.t
Table l Number of Stations: 1921-2000 Table 1 shows the number of stations actually on the air (regardless of license status) as of January 1 each year unless otherwise noted. Commercial and educational FM and VHF television were authorized in 1941,with UHF and noncommercial educational television appearing first in 1953. These figures should be used with some caution, as methods of counting varied with original source (Department of Commerce, FRC, FCC, or one of
Appendix C HistoricalStatisticsonElectronicMedia
827
the commercial data firms). Basic station data here match that usedin network affiliate tables 2-A and 2-B. U
l-A AM Radio Stations through 1940
1921 1922 1923 1924 1925 1926 1927 1928 1929 1930
m
............................................ ....................................... ....................................... ........................................ ........................................ ........................................ ........................................ ........................................ ...................................... .......................................
1931 .......................................... 1932 .......................................... 1933 .......................................... 1934 .......................................... 1935 .......................................... 1936 .......................................... 1937 .......................................... 1938 .......................................... 1939 .......................................... 1940 ..........................................
5 30 556 530 571 528 681 677 606 618
612 604 599 583 585 616 646 689 722 765
l - B Broadcasting Stations since 1941 FM Radio
AM Year
Radio Commercial
1941 1942 1943 1944 1945 1946 1947 1948 1949 1950 1951 1952 1953 1954 1955 1956 1957 1958 1959 1960 1961 1962 1963 1964 1965 1966 1967 1968 1969
831 887 910 910 919 948 1,062 1,621 1,912 2,086 2,232 2,331 2,391 2,521 2,669 2,824 3,008 3,196 3,326 3,456 3,547 3,618 3,760 3,854 4,044 4,065 4,121 4,190 4,265
18 36 41 44 46 48 140 458 700 733 676 637 580 560 552 540 530 537 578 688 815 960 1,081 1,146 1,270 1,446 1,643 1,753 1,938
Television
Educational 2 7 8 8 8 9 10 15 27 48 73 85 98 112 122 123 125 141 151 162 175 194 209 237 255 268 296 326 362
Commercial 2 (July 1) 4 8 8 8 6 12 16 51 98 107 108 126 354 411 441 471 495 510 515 527 541 557 564 569 585 610 635 662
Educational
2 11 18 23 28 35 44 52 62 68 85 99 114 127 150 175
Total 853 934 967 970 981 1,011 1,224 2,110 2,690 2,965 3,088 3,161 3,195 3,549 3,765 3,946 4,157 4,396 4,600 4,865 5,116 5,375 5,675 5,886 6,237 6,478 6,797 7,054 7,402
m
l-B (continued)
FM Radio
Television
Year
AM Radio
Commercial
1970 1971 1972 1973 1974
4,292 4,343 4,374 4,395 4,407
2,184 2,196 2,304 2,411 2,502
413 472 511 573 652
677 682 693 697 697
185 199 213 230 241
7,751 7,892 8,095 8,306 8,499
1975 1976 1977 1978 1979
4,432 4,463 4,497 4,513 4,549
2,636 2,767 2,873 3,001 3,107
717 804 870 926 982
706 710 728 716 724
247 252 256 266 274
8,738 8,996 9,224 9,419 9,636
1980 1981 1982 1983 1984
4,558 4,589 4,634 4,685 4,733
3,155 3,282 3,349 3,421 3,527
1,038 1,092 1,118 1,090 1,122
734 756 777 813 862
277 282 288 293 287
9,762 10,001 10,166 10,304 10,571
1985 1986 1987 1988 1989
4,754 4,718 4,863 4,902 4,948
3,716 3,875 3,944 4,041 4,174
1,172 1,231 1,261 1,301 1,383
904 941 999 1,017 1,062
290 300 296 325 338
10,836 11,065 11,363 11,586 11,905
1990 1991 1992 1993 1994
4,978 4,987 4,985 4,961 4,944
4,357 4,392 4,570 4,785 4,971
1,435 1,440 1,507 1,588 1,662
1,112 1,117 1,132 1,147 1,155
353 353 357 362 363
12,235 12,289 12,551 12,843 13,095
1995 1996 1997 1998 1999
4,913 4,909 4,857 4,762 4,793
5,109 5,296 5,419 5,542 5,662
1,733 1,815 1,864 1,923 2,017
1,160 1,180 1,190 1,198 1,221
363 363 365 366 368
13,278 13,565 13,695 13,791 14,061
5,766
2,066
1,243
373
14,231
2000 4,783
Educational
Commercial
Educational
Total
Sources: Most data on Tables l-A and l-B are derived from FCC records, many of which are reported only in secondary sources. Data for earlier years (1921-1959) taken from Broadcasting Yearbook 1977.For many years,Broadcasting Yearbookand Television Factbookpublished different figures. We have chosento follow Television Factbookfor the 1960-1975 period, with supplementary data, including 1976-1977, from Broadcasting magazine and/or Broadcasting Yearbook. Data from 1978 through 1983 are as reported in Sterling (1984), pp. 5-7 and 18-19, citing FCC data as provided in Television Digest and/or Broadcasting. Data for 1984-1989 are as reported by FCC as for stations licensed on the last day of the prior year (so, December 31,1987 data is shown here representing January 1, 1988), with 1985 and 1988 figures as printed in Broadcasting, and 1986 data showing stations licensed as of February 25. Other sourcesor exceptions: (1) AM radio column includes educational stations, which dwindled in number fromas many as 200 in themid-1920s to approximately 25 in 1941 and since; (2) data for 1921-1926 include “total authorized” stations, those for 1927-1947 include “authorized” and/or “licensed,” not necessarily stations actually on the air as reported for later years (1923 data for March 1, 1924data for October 1, 1925data for June 20, and 1926-1932 data for June 30); (3)educational FM figures through 1973 from Corporation for Public Broadcasting, Status Report on Public Broadcasting (Washington: CPB, 1974), p. 8 , with remainder from the FCC; and (4) educational television stations, 1941-1947 gathered by Lichty and Sterling from FCC. 1990-99 as reported on FCC website, citing data for 31 December of the previous year (e.g., December 31, 1993 is shown here as 1994 data). Exceptions: 1990 data is as of 30 September and 2000 is as of 13 Dec; 1999 FCC figures from Broadcasting b Cable (13 Dec 99). p. 115. These are operating stations, not total authorizations. 828
Appendix C HistoricalStatisticsonElectronicMedia
829
Table 2 Network Affiliates: 1927-2000 Figures in the first three tables show the growth of national commercial radio networks over eight decades, with most figuresas of January 1of each year. In table 2-A, NBC figures include both Red and Blue networks (see table 2-C for details of MC’s two networks) until 1943, when Blue became independently owned (and was renamed ABC in 1945). Table 2-B details radio networks since 1965, which have increasingly included FM stations as affiliates. Total percentage of network stations is approximate, as many stations were affiliated with more than one network at a time. In 1968, ABC broke into four specialized networks, presaging the radio network specialization of the 1980s. All percentage columns are based on all commercial stations ( A M only in table 2-A, AM and FM in table 2-B), not just network affiliates. Mutual ceased separate operation in 2000. In table 2-D (television networks) because the DuMont network left the air in October 1955, and as most of its affiliates held a primary affiliation with another network, its figures arepresented in the footnote. Through the 1950s, the separate network affiliation listings may not add to the number of network stations shown: multiple affiliations were more commonin the days of fewer television outlets per market. Unfortunately, the respective networks were unwilling or unable to provide affiliate information after 1988 despite repeated attempts. Table 2-E provides an approximate picture of public broadcasting network member (affiliate) stations. As apparently neither NPR nor PBS retain (or could provide) a record of their ownaffiliates, the table shows the number of “CPB-Qualified” radio stations (see text, p. 519) which is essentially what mostNPR member stations are, their percentage of all noncommercial radio, the number of NPR affiliates as reported by Arbitron, and the total number of public TV stations (generally synonymous with PBS affiliates, though a few public television stations broadcast only to schools).
830
13 0
.H U
m
3;
€3
8l m
U
h
gU k bl
Bz
J
B
U
::
["k
U
.
.
831
I
2-B Commercial Radio Networks: 1965-1988
N
Total CBS
NBC
Commercial
ABC
Mutual
Year Number Percentage Number Percentage Number Percentage Number Percentage 1965 1966 1967 1968 1969 1970 1971 1972 1973 1974 1975 1976 1977 1978 1979 1980 1981 1982 1983 1984 1985 1986 1987 1988
209 215 216 217 222 220 230 231 233 230 232 223 236 245 268 281 315 370 363 318 355 478 389 475
3.9% 3.9 3.7 3.7 3.6 3.4 3.5 3.5 3.4 3.3 3.1 3.1 3.2 3.3 3.5 3.6 4.0 4.6 4.5 3.8 4.2 5.6 4.4 5.3
237 239 240 243 245 247 249 242 243 248 247 257 266 270 278 321 400 425
4.5% 4.3 4.2 4.1 3.9
na na na na na na
na na na na na na
3.8 3.8 3.6 3.6 3.6 3.5 3.6 3.6 3.6 3.6 4.2 5.1 5.3
501 520
9.4% 9.4
na
na
515 492 523 538 545 568 632
847
8.7 7.9 8.1 8.2 8.2 8.3 9.1 9.3 9.5 10.2 10.6 12.4 11.9 11.5 11.0 10.6 10.2 10.0
na na
na na
731
8.2
657 684 755 800 950 934 902 876 860 841
355 361 337 500 1,013 1,175 1,074 1,169 1,246 1,293 1,322 1,353 1,546 1,554 1,561 1,574 1,591 1,631 1,750 1,745 1,726 1,893 2,133 2,251
6.7% 6.6 5.8 8.4 16.3 18.1 16.4 17.5 18.3 18.7 18.7 18.7 21.0 20.7 20.4 20.4 20.2 20.4 21.6 21.1 20.4 22.0 24.2 25.2
AMgrFM Stations 5,314 5,511 5,764 5,943 6,203 6,476 6,539 6,678 6,806 6,910 7,068 7,230 7,370 7,514 7,656 7,713 7,871 7,983 8,106 8,260 8,470 8,593 8,807 8,943
Network Stations
Number
Percentage
1,302 1,265
24.5% 23.0
na
na
1,457 1,972 2,165 2,091 2,187 2,290 2,403 2,458 2,517 2,803 2,869 3,057 3,110 3,208 3,302
24.5 31.8 33.4 30.9 32.7 33.6 34.8 34.8 34.8 38.0 38.2 39.9 40.3 40.8 41.4
na na na na na na
na na na na na na
Sources: For total number of stations: FCC. For number of their affiliates:the radio networks. NBC data after 1982 are for various dates, usually September, Yearbook.
nctnhnr. nr Nnvemhnr. and are from both the radio network and “The Source.”Mutual data are from Broadcasting
Appendix C HistoricalStatisticsonElectronicMedia
m
2-C NBC Red and Blue Radio Networks: 1927-1941
Year
Red (WFAF)
Blue (WJZ)
Alternates
1927 1928 1929
22 17 22 22 23 28 28 28 27 26 30 36 48 53 74
6 11 14 17 18 22 24 20 20 18 33 44 55
na
60 92
69 59
1930 1931 1932 1933 1934 1935 1936 1937 1938 1939 1940 1941 Source: M C .
24 22 32 34 36 36 40 41 45 48 62 64
833
0) 5
2-D Commercial Television Network Affiliates: 1947-1988 NBC
CBS
ABC
Year
Number
Percentage
Number
Percentage
Number
Percentage
Total Stations
1947 1948 1949 1950 1951 1952 1953 1954
2 9 25 56 63 64 71 164 189 200 205 209 213 214 201 201 203 212 198 202 205 207 211 215 218 218
16.7% 56.3 49.0 57.1 58.9 59.3 56.3 46.3 46.0 45.4 43.5 42.2 41.8 41.6 38.1 37.2 36.4 37.6
1 3 15 27 30 31 33 113 139 168 180 191 193 195 198 194 194 191 190 193 191 192 190 193 207 209
8.3% 18.8 29.4 27.6 28.0 28.7 26.2 31.9 33.8 38.1 38.2 38.8 37.8 37.9 37.6 35.9 34.8 33.9
1 6 11 13 14 15 24 40 46 53 60 69 79 87 104 113 117 123 128 137 141 148 156
8.3% 37.5 21.6 13.3 13.1 13.9 19.0 11.3 11.2 12.0 12.7 13.9 15.5 16.9 19.7 20.9 21.0 21.8 22.5 23.4 23.1 23.3 23.6 23.6 24.6 24.8
12 16 51 98 107 108 126 354 411 441 471 495 510 515 527 541 557 564 569 585 610 635 662 677 682 693
1955 1956 1957 1958 1959 1960 1961 1962 1963 1964 1965 1966 1967 1968 1969 1970 1971 1972
34.8 34.5 33.6 32.6 31.9 31.8 32.0 31.5
33.4 33.0 31.3 30.2 28.7 28.5 30.4 30.2
160 168 172
Network Stations Number
Percentage
4 17 50 96 107 108 125 317 374 421 445 469 485 496 503 508 514 526
33% 100 98 98 100 100 99 90 91 95 94 95 95 96 95 94 92 93
516 532 537 547 557 568 593 599
91 91 88 86 84 84 87 86
835
836
n
Appendix C Historical Statistics on Electronic Media
2-E Public Broadcasting Network Member Stations: 1970-2000 Public Radio Stations
Year 1970 1971 1972 1973 1974 1975 1976 1977 1978 1979 1980 1981 1982 1983 1984 1985 1986 1987 1988 1989 1990 1991 1992 1993 1994 1995 1996 1997 1998 1999 2000
“CPB-Qualified” Stations 73 96 109 132 147
AS To of all Noncommercial Radio Stations
159 169 176
18% 20 21 23 23 22 21 20
na na
na na
217
21
na na na na
na na na na
288 295
25
na 308 313 318 373 391 400 403
na na
407 408 694
24 23 22 26 26 25 24 23 22 37
na na na
na na na
NPR Member Stations
na na na na 24
na
Public Television Stations (PBS Members) 185 199 213 230 241
113 187 197 208 237 259 274 275 273 327 307 316 337 348
247 252 256 266 274 277 282 288 293 287 290 300 296 325 338
395 398 427 472 492
353 353 357 362 363
535 536 564 593 602
363 363 365 366 368 373
571
Source: Corporation for Public Broadcasting for baseline number of “CPB-Qualified” public radio stations. Percent of all stations based on total noncommercial radio stations data in Table 1-B. NPR member stations from Arbitron annual spring public radio nationwide measure, as reported to authors by TRAC Media Services of Tucson. For total number of public television stations, see table 1-B.
Appendix C HistoricalStatisticsonElectronicMedia
837
Table 3 BroadcastKable Revenue: 1927-2000 Figures show amountof advertising revenue accruing to national networks (including program, talent, time, commercial, and agency commission costs), national and regional spot (including commissions), and local advertising (including discounts and agency commissions). Discounts are excluded for networks and spots. Last column is radio (3-A) and television (3-B and 3-C) percentage of all U.S. advertising expenditure. Dollar figures are in millions; add 000,000. As radio proportional data changes little from year to year after 1960”save for the decline of national spot and the gain of local advertising-it is presented only every five years. Cable advertising revenue is reflected in table 3-C for the past two decades. Table 3-D offers information on the sources of public broadcasting revenue for every five years. To convert data to present-day dollar values, see “useful tools” on p. 826.
838
I
1950 1951 1952 1953 1954 1955 1956 1957 1958 1959 1960 1965 1970 1975 1980 1985
196.3 179.5 161.5 141.2 114.4 84.4 60.5 63.5 57.8 44.1 43.0 60.0 56.0 83.0 183.0 328.0
32.4 29.6 25.9 23.1 20.5 15.5 10.7 10.3 9.3 6.7 6.2 6.5 4.3 4.2 4.9 5.0
135.8 138.3 141.5 145.6 134.9 134.1 161.0 186.9 189.7 206.4 222.0 275.0 371.0 436.0 779.0 1,319.0
22.4 22.8 22.7 23.8 24.1 24.6 28.4 30.2 30.6 31.4 32.0 30.0 28.4 22.0 21.0 20.0
1990 1995 2000
482.0 480.0 705.0
5.5 4.2 3.8
1,635.0 1,959.0 3,390.0
18.7 17.3 18.4
273.3 288.5 321.1 324.4 309.4 326.4 345.5 367.5 371.7 405.8 428.0 582.0 881.0 1,461.0 2,740.0 4,915.0 6,609.0 8,899.0 14,325.0
45.1 47.6 51.5 53.1 55.4 59.9 60.9 59.5 60.0 61.8 61.8 63.5 67.4 73.8 74.0 75.0 75.7 78.1 78.0
605.4 606.3 624.1 611.2 558.7 544.9 567.0 617.9 619.2 656.3 692.0 917.0 1,308.0 1,980.0 3,702.0 6,563.0 8,726.0 11,338.0 18,420.0
11 10 9 8 7 6 6 6 6 6
6 6 7 7 7 7 7 7 8
Note: Readers should be aware that ‘‘-0’’ has been added to parts of this table for typographical consistency-on percentages from 1927 through 1934,and on dollar figures from 1961 through 2000. Sources: Research Department, McCann-Erickson (data reprinted in several sources, including Television Factbook) for data since 1935. Earlier information refers to estimated gross radio billings (and is thusnot directly comparable to the post-1935 data) and comes from Broadcasting Yearbook 1951, page 12, table V. These represent advertising volume at the one-time rate, ignoring discounts.
W
rp 0
s
3-B Television Advertising: 1949-1979 Network
Year 1949 1950 1951 1952 1953 1954 1955 1956 1957 1958 1959 1960 1961 1962 1963 1964 1965 1966 1967 1968 1969
Dollars (millions) $
29.4 85.0 180.8 256.4 319.9 422.2 550.2 643.1 690.1 742.0 776.0 820.0 887.3 976.0 1,025.0 1,132.0 1,237.0 1,393.0 1,455.0 1,523.0 1,678.0
National/Regional Spot
Percentage 50.9% 49.8 54.4 56.5 52.8 52.2 53.1 52.5 53.7 53.5 50.7
Dollars (millions) $
9.2 30.8 69.9 93.8 145.5 206.8 260.4 329.0 351.6 397.0 486.4
Percentage 15.9%
50.4 52.5 51.4 50.4 49.5
526.7 548.0 629.0 698.0 806.0
18.0 21.0 20.7 24.0 25.6 25.2 26.9 27.4 28.6 31.8 32.4 32.4 33.2 34.4 35.2
49.2 49.3 50.0 47.1 46.8
892.0 988.0 988.0 1,131.0 1,253.0
35.5 35.0 34.0 35.0 35.0
Local
Dollars (millions) $
19.2 55.0 81.6 103.7 140.7 180.2 224.7 252.6 243.6 248.4 266.8 280.5 256.0 292.0 309.0 351.0 386.0 442.0 466.0 577.0 654.0
Percentage 33.2% 32.2 24.6 22.8 23.2 22.3 21.7 20.6 19.0 17.9 17.4 17.2 15.1 15.4 15.2 15.3 15.3 15.7 16.0 17.9 18.2
Total Dollars (millions) $
57.8 170.8 332.3 453.9 606.1 809.2 1,035.3 1,224.7 1,285.3 1,387.4 1,529.2 1,627.3 1,691.0 1,897.0 2,032.0 2,289.0 2,515.0 2,823.0 2,909.0 3,231.0 3,585.0
Percentage of All Advertising 1% 3 5 6
a 10 11 12 12 13 13 13 14 15 16 16 17 17 17 18 19
1970 1971 1972 1973 1974 1975 1976 1977 1978 1979
1,658.0 1,593.0 1,804.0 1,968.0 2,145.0 2,306.0 2,857.0 3,460.0 3,975.0 4,599.0
46.1 45.1 44.1 44.1 44.2 43.8 42.6 45.4 44.4 45.3
1,234.0 1,145.0 1,318.0 1,377.0 1,497.0 1,623.0 2,154.0 2,204.0 2,607.0 2,873.0
34.3 32.4 32.2 30.9 30.8 30.8 32.0 29.0 29.1 28.3
704.0 796.0 969.0 1,115.0 1,212.0 1,334.0 1,710.0 1,948.0 2,373.0 2,682.0
19.6 22.5 23.7 25.0 25.0 25.3 25.4 25.6 25.5 26.4
3,596.0 3,534.0 4,091.0 4,460.0 4,854.0 5,263.0 6,721.0 7,612.0 8,955.0 10,154.0
18 17 18 18 18 19 20 20 20 20
Note: Readers shouldbe aware that “.O” has been added to parts of this table for typographical consistency,particularly for dollar figures for the years from 1961 through 1979. Sources: Research Department, McCann-Erickson (data reprinted in several sources, including Television Factbook). McCann-Ericksonhas provided rounded and corrected data for several earlier years. McCann-Erickson data for 1976-1979 as reported to the authors &om that company.
e
rn 3-C
TelevisiodCable Advertising: 1980-2000 Broadcast Television Network
Year
Dollars (millions)
NationaVRegional Spot
%
1980 1981 1982 1983 1984 1985 1986 1987 1988 1989 1990 1991 1992 1993 1994
$ 5,130.0
5,540.0 6,144.0 6,955.0 8,318.0 8,060.0 8,342.0 8,500.0 9,172.0 9,110.0 9,863.0 9,533.0 10,249.0 10,209.0 10,942.0
45.0 43.2 41.2 41.2 41.5 39.7 37.9 37.1 35.1 33.2 33.9 33.8 33.7 32.2 30.9
1995 1996 1997 1998 1999
11,600.0 13,081.0 13,020.0 13,736.0 14,698.0
2000
16,020.0
Dollars (millions) $ 3,269.0
30.7 30.8 29.5 28.8 30.6
3,746.0 4,364.0 4,827.0 5,488.0 6,004.0 6,570.0 6,845.0 7,147.0 7,354.0 7,788.0 7,110.0 7,551.0 7,800.0 8,993.0 9,119.0 9,803.0 9,999.0 10,659.0 10,925.0
30.4
11,800.0
% 28.6 29.2 29.7 28.6 27.4 29.6 29.8 29.8 27.4 26.8 26.8 25.2 24.8 24.6 25.4
Cable Television
Local Dollars (millions) $ 2,967.0
%
24.1 23.1 22.7 22.3 22.7
3,368.0 3,765.0 4,345.0 5,084.0 5,714.0 6,514.0 6,835.0 7,270.0 7,612.0 7,856.0 7,565.0 8,079.0 8,435.0 9,464.0 9,985.0 10,994.0 11,436.0 12,169.0 12,595.0
26.0 26.3 26.1 25.7 25.4 28.2 29.6 29.8 27.8 27.7 27.0 26.8 26.5 26.6 26.7 26.4 25.9 25.9 25.5 26.2
22.4
13,665.0
25.9
Dollars (millions) $
72.0 160.0 290.0 452.0 733.0 989.0 1,173.0 1,321.0 1,641.0 2,095.0 2,457.0 2,728.0 3,201.0 3,678.0 4,302.0 5,108.0 6,438.0 7,237.0 8,547.0 9,807.0
11,150.0
%
1.2 2.0 2.7 3.7 4.8 5.3 5.8 6.3 7.6 8.5 9.7 10.5 11.6 12.1 13.5 15.2 16.4 17.9 20.4 21.2
Total Dollars (millions)
Percentage of All Advertising
$11,438.0 12,814.0 14,713.0 16,879.0 20,043.0 20,298.0 22,026.0 22,941.0 26,131.0 27,459.0 29,073.0 28,189.0 30,450.0 31,698.0 35,435.0 37,828.0 42,484.0 44,130.0 47,720.0 48,025.0 52,635.0
20% 21 22 22 23 21 22 21 22 22 22 22 23 23 23 23 24 24 24 23 23
Source: McCann-Erickson. Note: Network includes Fox as of 1990.Total includes syndicated program advertising which is not listed separately here (and grew from $901 million in 1988 up to $2.8billion by 1999).
Appendix C HistoricalStatisticsonElectronicMedia
m
843
3-D Public Broadcasting Revenue: 1970-1999
Table shows total public broadcasting system revenue (Corporationfor Public Broadcasting,National Public Radio, Public Broadcasting Service and stations) and proportion of that revenue fromvarious tax and non-tax sources. Source of Income by Percentage from: Total State and Income Federal Local Memberships Business/ Year (millions) Govt Govt and Auctions Industry Foundation Other 1970 1975 1980 1985 1990 1995 1999
$ 154
370 705 1,096 1,581 1,917 2,150
15% 25 27 16 17 18 14
na
na
na
na
na
44% 39 33 30 29 25
11% 15 23 23 23 27
7% 10 16 17 15 15
8% 3 4 5 6 6
5yo 6 9 9 9 13
Source: Corporation for Public Broadcasting data as presented in Statistical Abstractof the United States various years. 1999 data from CPB website.
Table 4 Radio Promammine: 1927-1999 Tables 4-A through 4-D, based on data in Summers (1958), show trends in programming on the nationalcommercial radio networks from their inception through the mid-1950s, when television had drastically diminished the role of network radio. Data for 1927 refer only to NBC’s Red network, while data after that year include MC-Blue andCBS and data after 1934 include Mutual. NBC-Blue became independentin 1943 and was renamed ABC in 1945. The figures shown are the numberof quarter-hours of that program type on the air for all networks for a single week-typically, the third week in January. Thus the data are indicative of that “season’s’’ programming but are no more than that, especially as the “season” concept did not become 1930s. important for the networks until well into the The tables cover (A) evening programs, or those on the air after 6 P.M., any day of the week, (B) weekday daytime programs on the air Monday through Friday before 6 P.M., (C) a total program summary combining the data in A and B plus weekend daytime figures, and (D) a percentage summary for selected years showing trends in program types. For convenience, the programs in the first three tables are divided into four major categories: variety, music, drama, and talk. Each is further subdivided into specific program types. Note the following in the setof tables: Other than children’s variety, programs directed at children are included in totals with adultprograms. Recorded music and magazine variety, to name the two most obvious types of program, do not appear in network schedules until the1950s.
844
m
Appendix C Historical Statistics on ElectronicMedia
4-A Evening Network Radio Programs: 1927-1956 (number of quarter-hourson commercial networks) 1927 1928 1929
l 9 3109 3 1
1932 1933 1934 1935 1936 1937 1938 1939
Variety
Vaudeville and Comedy Semi-variety Amateur and Talent Hillbilly, Country &Western General and Talk Variety Children’s Variety Magazine Variety
5 37
28 8
”
14
2 12
7
“
“
Music Musical Variety Light Music Concert Music Recorded Music
87 60
33
Drama General Light Women’s Serial Comedy, Comedy Situation Thriller Documentary, Information Talk Human Interest Quiz News Public Affairs, Forums Talk Sports Play-by-play Religion
57 44 44
-
-
-
-
13 16 17 19 3
15 15
16 38 4
”
19
32 23
30 18 2
9 14
10
-
-
64 27 48
99 29 47
4 1012 24
-
70 34 49
56 48 52 25 12 20 36 48
28
-
6
8
11
2
5
32
-
17 5 22 22 7
7
38 6 4
-
2 18 13 10 35 4
6
36 6 4 8 30
-
2 13 15 8 34 4
4
7 13
9 20 22 3
-
-
12 8 12
16
-
-
-
38
16
-
27 14 -
-
23
-
28
5
-
-
28 12 15
-
31 5 26
-
5
5
”
6 17
14 28
-
-
-
34 25 8
16 23 12
18 33 8
18 13 16 618 8 23 34 8 8 12 14 18 2 5 5
-
33 23 2 7 ~~
Total Quarter-Houn
17688
203378 402 407 288 345 331 340 310
358
389
Under drama, “general” refers to anthology and prestige dramatic programs, while “light” is a catchall for series not covered in other categories. Under talk, “human interest” means a program type concentrating on personalities and occupations and activities, though the nominal format of such programs was often audience-participation, panel, or quiz show in style. Under music, all the programs shown were live except those labeled “recorded.”
Note: Tables 4-A through 4-D are 0 by L. W. Lichty and are used with permission. Table 4-E details radio station formats since 1964 and is drawn from many different surveys, as listedin its footnote.
Appendix C Historical Statistics on ElectronicMedia
845
(continued)
n 4-A
19401941194219431944194519461947194819491950195119521953195419551956
32 16 4 12 16
18 6 4 8 28
32 9 4 8 24
34 2 2
6 21
-
38 5 2 8 29
30
32 2 2 10 22
-
-
-
70 13 29
63 9 24
-
38 4
-
-
4
6 18
22
-
34 2 4 4 4
30 2 8
10 4
-
24 4 7 4 8
-
56 23 30 12
52 26 38 10
76 28 27 4
51 37 24 15
14 12
20 9
16 25
16 15
12 22
6 7
-
58 4 34
69 11 37
-
-
-
-
-
-
-
-
-
-
14 24
14 20
16 17
12 14
16 11
8 8
18 17
16 19
18 12
20 22
-
60 7 22
63 5 29
-
-
40 3 18
44 4 22
-
-
-
52 2 23
51 7 21
-
-
-
-
33
6 26
-
12 10 2 5 7
29 15 32 10
59 24 28 4
-
8 10 2 11 25
-
-
-
6 2 2 12 8
-
-
-
18 2 6 12 2
-
-
-
26 4 9 4 4
-
-
-
22 4 7 4 4
30
5
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
21 40 4
17 30 4
27 41
20 35 12
23 56 16
32 48 16
40 57 6
44 79
41 78 10
35 68 4
53 91 2
39 95 12
33 91
36 79 10
41 71 11
16 62
13 37 18
10 30 56 13 38 3 5
19 37 45 18 23 3 9
12 28 62 14 26 2 7
10 30 65 12 8
16 30 88 11 5
11 38 77 14 21
6
3 5
6 16 83 10 18 6
36 96 12 25 3
9
5
10 34 77 13 19 5 7
-
-
8 48 50 13 22 3 3
12 32 82 12 19
11
12 27 49 17 23 3 5
12 36 65 9 14
-
9 32 73 10 9 2 5
25 103 17 32 3 2
2 19 82 17 21 26 l0
432
459
427
421
427
453 399 455 383 460
9
6
3
6
-
463 444 446 489 501 465 432
9
-
-
6
9 12 85 23 27
10
-
846
m
Appendix C HistoricalStatistics on ElectronicMedia
4-B Daytime Network Radio Programs: 1927-1956 (number of quarter-hourson commercial networks) 1927 1928 1929 1930
1931 1932 1933 1934 1935 1936 1937 1938 1939
Variety Vaudeville and Comedy Semi-variety Amateur and Talent Hillbilly, Country & Western General and Talk Variety Children's Variety Magazine Variety
4
-
"
- " _ 40
40
30
20 1
0
"
7
4
"
87 18 13
16
Drama General Light Women's Serial Comedy, Situation Comedy Thriller Documentary, Information
8
"
45
42
4
-
4 5
12
3 225
7 41 10
"
"
3
241 253 152 94
311
297
357
439
30 20
-
10 18 29 83
-
6
16
- " 70
-
-
240 154 5 25 27 10 12
"
12141
65
16
88
17
3
"
- " _
4
Talk Human Interest Quiz News Public Affairs, Forums Talk Sports Play-by-Play Religion
E
-
-
"
Music Musical Variety Light Music Concert Music Recorded Music
Total Quarter-Hours
"
1 88
75
"
5
5
533
488
4-C Network Radio Programs: Summary 1927-1956
(number of quarter-hourson commercial networks) 1927 1928 1929 1930 1931 1932 1933 1934
Evening Variety 32 92 20 84 120 117 Music 153 175 139 145 180 Drama Talk 8 Daytime Variety Music Drama Talk Weekend Daytime Variety Music 16 7 16 19 Drama Talk
14 92 498 83 174 198 77 157 138 41 18 12 12 7
78
-
3617
- " - 31 10 "
31 12
3
_10" "8 2
14 10 12 15 -2
-2
1516
22
1 89
11 28 4 51
8
10
1935 1936 1937 1938 1939
57 43
56
8847 46
68
15 8 34 77 27 14 96 96 85 134 6
83 4 1
7976 7252
27 68 61
20 112 83
5855
66
107
351 241
86
44 30 71 100 127 97 86 85 129124 96
37 71 207
108
44 58 302
43 81 278
24 55
11
2 21
25
26
946 419 867 809 773 669 694 516
88 101
74 80
4
65 27 62 56
24 36 22
Total by Type Variety 20 14 4 159 140 139 43136 5135 1 108 75 90 Music 24077 198 150 235 313 317 268 Drama 21 12 47 63 110 161 195 178 Talk 175 170 150 196 26 167 65 89 112 Total Quarter-Hours
82 67
3823
35
304 315 253 397 213 387 309 203 245
56 18 35
233
225
245
229
1,005 1,010
847
Appendix C HistoricalStatisticsonElectronicMedia
"
"
"
" " " " " " " " " " " " " 42 4
40 5
"
-
-
lo
2 2 1 15 0 35- 35 30 30 35 32 62 70 30 55 40 - - - - - - - - -
"
"
"
5 "
10
1 0 "
30 1
"
0
55 80 5 1 4
"
lo
95 65 5 - -
"
lo
-
1924 110
-
101
126 121
"
-
"
95
48 41 4 20 15 5 10 25930 20 - 10 10 10
9 30 13 4 35 38 46 10 2 14 11
4""
" _ " "
-
53 25615 16 21 2 40 20 15
23 23 43 5
2"3010
5
5
25 352836
" " " " " " - " - "
305 5 25 35 26 20 19
"
15
14
14
9201513
5
-
10 10 10
4"-
5 40 10
10
30 10 10
30
45
10
10
"
"
-
5
-
-
12 12
-
-
-
50 40
50 60 30
44 45 51
53 35 73
35 35 63
28 13
55
40
4825 16 15
5
5
-
-
-
58
70
85 50 35
70 31 35
50
5
5
565
538 528 534 390 490 471 548 534 580 602 591 590
I
23 95 5 8
15
10
5 "
15 33 28
-
-
50 4545 10 10
15 41 50 15 15 5 5 50 50 50 50 51 10 4120 49 " " " " " " 68 68 76 33 37 42 45 44543637 " " " " " " " " 5
20 10 160 135 175 140 135 130 1 0 40 42 35 35
165
300 275 200 220 195 200 165 180 5 5
5
-
55
5 "
624 595 544 584
4-C (continued)
19401941194219431944194519461947194819491950195119521953195419551956
56
64 96 85 154
77 65 117 89 110 93 151 136
82 97 122 159
68 112 112 140
56 96 138 169
66 61 164 136
48 70 159 144
54 77 149 147
47 79 172 165
41 65 175 163
47 86 174 139
40 121 156 172
30 126 157 188
135 97 177
66 127 73 166
34 62 53 11 325 235 122 82
72 26 280 112
40 30 264 137
65
75 34 239 186
258 206
85 58 230 229
115 68 222 186
150 50 190 200
95
39 264 160
60 56
349 87
45 49 341 93
220 165
168 93 170 193
130 104 180 181
121 97 175 151
221 111 131 121
16 63 16 53
12 64 17 58
30 60 36 62
18 43 30 60
20 69 34 70
12 63 39 69
10 53 39 58
12 47 35 77
14 47 39 79
22 50 36 90
24 52 36 77
23 108 36 107
58 83 27 99
66 78 22 92
90 80 16 92
166
231
80 115 103 155
46
56
142 121 234 209 468 443 295 305
15 66 18
14 51 14
65
50
126141 236151 453342 338268
1,139 1,078 1,153
184 126 141 153 183 165 204 158 438 406 456 442 333 337 399 391
118 151 176 213 179 182 194 165 203 322 456 414 433 403 430 408 453 430 453 401 472
65
362
218 243 377 313 310 316 364 294 220 468 420 379
902 1.138 1,054 1,200 1,144 1,161 1,200 1,233 1.234 1,200 1,387 1,363 1.267 1,294
s
4-D Network Radio Programs: Percentages 1929-1956 (summary,every three years) Percentage of All Quarter-Hours:
Year
Variety
Musical
Drama
1929 1932 1935 1938 1941 1944 1947 1950 1953 1956
5% 11 18 15 10 16 14 13 15 31
56% 46 39 24 20 16 15 15 25 23
6% 15 25 38 42 38 33 36 28 16
Interview, Human Interest, Quiz
*Includes Farm,Religious, Miscellaneous, and Unclassified. Sources: Data in this table are derived from tables 4-A through 4-C.
2% 4 6 7 14 13 8 5
News, Sports, Forums, Talks 28% 26 11 16 18 19 21 19 20 19
Other* Programs 5% 2 5 3 4 4 3 4 10 6
Total Quarter-Hours Broadcast per Week 351 694 809 1,005 1,078 1,138 1,144 1,233 1,387 1,294
rn
4-E Radio Station Formats: 1968-1999 Percentage of Stations Programing
Year/mkts ~~~~~~
Middle-ofthe-Road
No. of Stations ~
~
~~
~~~
Top40
Beautiful and Background
County
Black Soul
Talk
Religion
Oldies
Other
-
-
-
14%
3%
-
-
3
~~~~~
1968
top-50 mkts
News
1,076
40%
15%
13%
11%
4,193
22
26
8
21
14
2,653
17
32
13
17
5
3
5
-
6
2,904
19
23
9
19
8
3
7
-
9
2,939
26
19
6
15
7
5
7
-
13
10,444
-
7
-
22
4
14
11
11Yo
31*
7%
1973
all markets 1978
all markets 1982
all markets 1988
all markets 1999
all markets
Notes: Categories vary over the years, so these must be considered as, at best, approximations of what stations were programming. Data through 1988 based on samples of AM and FM stations in top 50 markets for 1968 and all market sizes in other years. 1999 data includes most commercial stations on the air. “Oldies” category not included in years before 1999. *“Other” for 1999 includes such formats as (with ranks within the top 30 formats): Hispanic (6),sports (15),ethnic (23),“pre-teen” (26),and classical (29). Sources: Sterling (1984)for data through 1982,citing Lichty & Topping (1975)for 1968 and 1973 information. 1982 and 1988 data from James Duncan. 1999 from M Street Inc. as reported on Radio Advertising Bureau, Radio Marketing Guide and Fact Book for Advertisers: 2000-2001 Edition,p. 46, as provided on RAB website.
850
Appendix C HistoricalStatistics o n ElectronicMedia
Table 5 Television Programming: 1949-2000 Tables 5-A through 5-E show trends in programs on the national commercial television networks from their inception in 1948 to either 2000 (prime time) or 1973 (daytime). Except for table 5-A, these tables show the number of quarter-hours of each program type on theair for a single week, typically the third week in January-parallel to radio data tables 4-A through 4-D. The data are thus indicative of that television season; that is, 1954 data refer in a general sense to the whole 1953-1954 television season. The tables show (A) evening programs on the air after 6 P.M. (listed by hours rather than quarter-hours, and with somewhat different program categories than the other tables); (B) weekday daytime programs on theair Monday through Friday before 6 P.M.; (C) a total programming summary of number of quarter-hours and percentages, allowing a direct comparison of prime-time and daytime information plus that for weekend programming (also including cost and other measures of program change), and (D and E) detailed major network format types in both prime-time and daytime hours summarized from data provided by A.C. Nielsen. Tables 5-D and 5-E differ from tables 5-A through 5-C not only in source but because (1)they include only programs carrying advertising (the vast majority) and (2) they cover only 10 A.M. to 4:30 P.M. as “daytime.” Table 5-F reports the available data on public television station programming-see notes to that table for program definitions pertaining only to public television. Finally, Table 5-G provides information on the television audience for national presidential campaigns. than those The program types for tables 5-A through 5-E are more refined for radio, making direct comparisons a bit difficult. For example, “thriller” in the radio tables includes content classified as crime-detective, actionadventure, westerns, and suspense programs in television. Note also: Table 5-A shows the weekly hours of programming on ABC, CBS, NBC (and, for later seasons, Fox, UPN and WB) from 6 to 11P.M.,Eastern time. The program categories shown in the table are defined as follows: Variety: includes comedy, music, country, and talk variety formats, and in a very fewcases miscellaneous or varied formats. General drama: into the 1960s was primarily anthology; since then many are lawyer- and doctor-centered programs. Movies: includes made-for-TV movies as well as those initially produced for theatrical release. Actiodadventure: also includes science-fictionlspace. Crime/detective:virtually all police or private-eye programs. Western: while there were occasional ‘cowboy’ dramas during the past quarter-century, none since 1991 has lasted for a complete season. SitC (Situation Comedy): (sometimes earlier Comedy Drama) also includes a small number of animated family comedies such asThe Flintstones and The Simpsons.
Appendix C Historical Statistics on ElectronicMedia
853
Quiz: includes panel, audience participation, and human interest. News: includes network evening news, documentary, documentary magazine, forum, and other information formats. The table covers not just ‘primetime’ programs but all network evening programs from 6 to 11 P.M. Eastern and Pacific time (5 to 10 P.M. Central and Mountain time),so that it includes the network evening news programs World News Tonight, CBS Evening News, and NBC Nightly News-their titles for the last half of this table, but broadcast under various titles earlier. Talks: includes allsports programs (including football, since this sample is based on the fall schedule beginning with 1992-93 (as noted below), and religion. This category grew from 1989, since it also includes “reality” formats such as comedy “reality” programs like Funniest Households Videos and action or crime/action ‘reality’ such as COPS, Rescue 91 1, and Unsolved Mysteries-and most recently, programs such as Survivor. Each TV season label is abbreviated (so September 1948 to August 1949 is shown in this table as 1949 and so on). Even by 1950 the then four networks (DuMont is included) presented nearly 90 evening hours each week. After 1955, when DuMont failed, there were generally about 80 hours. Then in 1971, FCC rules limited each network to three hours each night, so with evening news-which expanded from 15 to 30 minutes after 1964-the total is slightly less. After Fox is added,starting in 1990, the total is again about 90. WB and UPN, added in 1999, bring the total, including the evening news, to about 115, rounded up to whole hours. The compilation in tables 5-A through 5-E was initiated by Professor Harrison B. Summers at Ohio State University in the 1950%and was then revised and continued by Lawrence Lichty, now of Northwestern University, after 1960. Material for the 1948-49 through the 1976-77 seasons was based on a sample week of programming (third week in January); for 1977-78 through 1991-92 season the list isbased on the lastweek of January and first week of February “regular” programs (i.e.,at least five episodes a season, thus not including specials, one-time-only, or mini-series, during the regular season from September to April). From 1992-93 to 2001 data are drawn from the BJK&E Media Group-now TN Media Inc-based on programs forfall season. Over the years L. W. Lichty has had assistance from a number of colleagues including C.H. Sterling, Kenneth Swerdlow, and Susan Leakey Watler up to 1977; M.T. Cozzola, 1978-87, Noah Arceneaux 1988-1991, and Steve Sternberg and Stacey Lynn of True North for data since 1993. Tables 5-A through 5-E are copyright 0 2000 by Lawrence W. Lichty.
H N N N N
Nml I I
w w w Q , w
I I I I I I I I I I
d
N m m a o
1975 1976 1977 1978 1979 1980 1981 1982 1983 1984 1985 1986 1987 1988 1989 1990 1991 1992 1993 1994 1995 1996 1997 1998 1999 2000 2001
6 5 8 10 8 6 5 5 1 1 1
1 1 1 4 2 na 3 1 1 1 1 4 1 2
7 9 8 9 15
14 16 16
4 3 9 7 9 7 8 6 11 10 11 11 10 3 5 4 4 2
na
na
na
12 15 19 15 16 23 30 24
14 14 14 12 10 12 13 18
4 6 5 7 7 7 9 13
14 14 12 14 12 11 10 12 13 16 13 14 13
19 14 12 14 14 14 13 17 16 17 15 16 15 13 12
20 25 19 12 10 11 10 8 8 11 24 14 12 20 12 13 9 7' na 8 10 6 10 10 14 10
7
9 13 14 15 14 13 13 13 14 11 12
12 13 13 14 18 18 23 na 24 21 25 24 22 27 22 20
11 12 13 12 13 14 14 14 13 14 13 13 15 14 15
-
1 3 2 3 5 2 1
-
18 17 16
2 3 6 9
na
na
20
7 6 4 4 4 6 6 6
20 18 19 21 21 22 20
854
R
Appendix C Historical Statistics on ElectronicMedia
5-B Daytime Network Television Programs: 1949-1973
(number of quarter-hourson commercial networks) 1949
1950
1951
1952
1953
1954
1955
1956
1957
1958
Variety Special,Variety Comedy Ameteur. Talent Country and Western General, Talk Music Musical Variety Light Music
Drama General Motion Pictures Women’s Serials Action-Adventure Crime-Detective Suspense Westerns Comedy, Situation Comedy Animated Cartoons Quiz and Panel Audience Participation Human Interest Panel Shows News and Information
Newscasts Forums, Interviews Documentary, Information Other mes
Religion Talk Children’s Shows sports
Miscellany Total Quarter-Hours
105 394 416 185 399 320 158232 284
401
Appendix C Historical Statistics on ElectronicMedia
n
855
5-B (continued)
~
1919
434 0 450 454 424 429 456 492 494 550 480
1960 1961
1962
1963
1964
1965
1966
1967
1968
1969
1970 1971
-
-
60 30
-
50
-
80 20 50
-
50 40 10 80 40
-
5
-
20 15
-
_____
1972
1973
a
5-C Network Television Programs: Summary 1949-1973 (number of quarter-hours on commercial networks) 1949
1952
1955
1958
All Programming: Quarter-Hours Variety 66 Music 45 Drama 87 Quiz 68 News/Information 45 166 Other Total 477
249 64 196 93 56 145 803
278 52 266 108 60 157 921
161 99 309 167 62 75 873
All hogrammiug: Percentage Variety Music Drama Quiz NewdInformation Other Total
31% 8 24 12 7 18 100%
30% 6 29 12 7 17 101%
18% 11 35 19 7 9 99%
14% 9 18 14 9 35 99%
1961
95 50 468 170 77 97 957 10% 5 49 18 8 10 100%
1964
1967
1970
1973
134 42 400 180 94 88 938
116 40 478 174 88 74 970
195 28 518 102 83 84 1,010
150 16 483 142 94 86 971
14% 4 43 19 10 9 99%
12% 4 48 18 9 8 99%
19% 3 51 10 8 8 99%
15% 2 50 15 10 9 101%
Average ProductionCost: Prime-The Programs 90 min. Drama na na 60 min. Variety $ 5,900 $35,900 60 min. Drama 10,800 21,100 30 min. Variety 3,800 16,700 30 min. Drama 3,500 13,200 30 rnin. Quiz 1,730 9,640 Movies na na Movies for TV na na
na
na
na
$67,700 34,100 24,600 26,100 11,400
$84,000 65,450 44,100 36,200 29,330
na na
$181,000 115,700 120,810 65,000 59,030 45,500 200,000
$200,000 182,170 176,520
na na
$110,000 86,640 63,000 42,270 28,200 180,000
na
na
na
Live-VTR or Film (Percentage of quarter-hours in prime time) Live-VTR 34% 78% 65% Film na 25 40
42% 69
17% 81
25% 54
na 88,690 71,000 380,000
19% 67
$300,000 193,210 203,610 100,000 103,960 35,000 750,000 400,000
$342,500 204,286 213,636
22% 51
12% 58
na 104,194
na 750,000 418,333
Source: Lichty and Topping (1975), Table 36. Information in the last two sections (averageproduction cost and live-VTR or film) is only for prime-time programs broadcast 7-11 P.M. Average production cost is actually the lease (rental)payment for all showings (usually two) for “Movies” while referring to production costs for all other categories. The percentage figures for live-VTR and film are based on prime-time quarter-hours-and may not add to 100% due to rounding.
858
Appendix C HistoricalStatisticsonElectronicMedia
5-D Network Television Prime-Time ProgramQpes: 1973-1995 (number of quarter-hours per week) Drama/ Adventure
Variety Year 1973 1974 1975 1976 1977 1978 1979
20 8
1980 1981 1982 1983 1984
18 16 12 8 6
1985 1986 1987 1988 1989 1990 1991 1992 1993 1994 1995
16 28 16 12
-
4
4 8 10 10 16 10 14 2 4
Situation
Film
Mystery
40 68 68 52 60 72 48
64 58 40 46 48 48 56
68 76 a4 66 48 48 56
48 30 44 50 64 58 68
60 76 76 104 84 90 78 72 60 80 96 68 88 76 112 106
56 40 40 48 48 40 48 36 48 48 48 56 48 56 56
28 48 48 28 84 82 58 80 64 52 42 40 44 36 20 20
70 60 64 52 48 48 56 72 70 84 88 100 86 92 80 96
56
Comedy
Other
Total
12 12 12 22 28 26 36 32 24 24 24 22 20 24 20 36 26 28 32 44 50 54 42
252 252 264 264 264 264 264 264 264 264 264 284 284 264 284 286 300 312 312 320 324 324 324
Sources: All data derived from A.C. Nielsen. 1973-1982 from Sterling (1984), page 198. Figures are quarter-hour averages calculated by the authors from Nielsen for datathe fallof each indicated telmeans feature films. Figures beginning evision season.Totals may not adddue to rounding. “Film” in 1988 include the Fox Network “Other” includes news magazineprograms: the majority of the category after by the rnid-lggos. Beginningwith data for 1996, however, Nielsen reported number of programs rather than number of hours, making it impossibleto further update thistable.
Appendix C HistoricalStatisticsonElectronicMedia
m
859
5-E Network Television Daytime ProgramW e s : 1973-1987 (number of quarter-hours perweek) Daytime Drama
Situation
Year
Comedy
QuizlAudience Participation
1973 1974
148 138
20 10
158 188
1975 1976 1977 1978 1979 1980 1981 1982 1983 1984
158 180 180 200 210 220 220 230 210 230 220 200 220
10 30 50 30 20 40 30 20 30 20 10 10 20
168 130 120 100 120 60 80 80 90 80 110 90 100
1985 1986 1987
Newdother
Total
13 3 3 20 10 20 10
340 340
20 10
10 20
340 360 360 350 360 340 340 330 340 350 340 310 340
Sources: All data derived from A.C. Nielsen. 1973-1982 from Sterling(1984),page 198; 1983-1984 from Television Audience2984 (Northbrook,m.: A.C. Nielsen Co., 1984),page 40; 1985-1987 from Television Audience 1987 (Northbrook,III.: A.C. Nielsen Co., 1987),page 43. Figures are quarterhour averages calculated by the authors from Nielsen data for the fall of each indicated television season. Totals may not add due to rounding. Some datafor 1977-1982 are estimated from Nielsen data by the authors. After 1987,Nielsen stopped reporting numberof hours and simply listed the number of programs making it impossible to further update this table.
860
861
Appendix C HistoricalStatistics on ElectronicMedia
m
5 - 6 Television Coverage of Presidential Elections:1952-1996 Total Rating, All Networks Party Conventions
Year Election Hours Viewing First Election Second (Winner-Loser) (All Nets] Democrats Republicans Debate Debate Night Alternatives* 1952
na
na
N o debates
na
na
na
na
No debates
na
na
55
29
28
59
66
na
60
29
22
N o debates
56
na
73
29
26
N o debates
59
na
57
18
23
N o debates
45
na
60
25
32
54
52
52
na
47
27
22
59
None
46
na
25
23
19
45
46
36
17
na
20
18 36
37
26
25
na
22
21
38
40
38
na
17
1726
32
26
45
119
Eisenhower-Stevenson 1956
60
Eisenhower-Stevenson 1960
60
Kennedy-Nixon 1964
Johnson-Goldwater 1968
Nixon-Humphrey 1972
Nixon-McGovern 1976
Carter-Ford 1980
Reagan-Carter-Anderson 1984
Reagan-Mondale 1988
Bush-Dukakis 1992
46
Clinton-Bush-Perot 1996
Clinton-Dole Notes: A “rating”is the proportion of all television households thatis watching a particular programor event. “Hours” in first column is total hours telecast fromconventionsby all networks(includingDuMont in 1952, and CNN and PBS in 1992,1996. Remaining columns are the total rating acrossall networksfor events listed. “Alternative Viewing”in last columnis total rating of all other viewing choices,broadcast or cable, other than election night reports. Source: A.C. Nielsen Co. Network Television Audiences to Primaries, Conventions, Elections(1976). and 2000
Report on Television (2000).
Table 6 Radio Receivers andAudio Market: 1922-1998 Though radio production was frozen during World War 11 (1942-45), the number of radio households grew as extra sets were distributed to those with none. As cars were junked during that period, however, carradios in use obviously declined. While household radios continued to increase in numbers with population growth after 1960, the percentage of households with radio and typical cost changed little as newaudio products were introduced. For baseline data on numberof households, see “useful tools” on p. 826.
862
m
Appendix C HistoricalStatisticsonElectronicMedia
6-A Ownership of Radio Receivers: 1922-1959
Year 1922 1923 1924 1925 1926 1927 1928 1929 1930 1931 1932 1933 1934 1935 1936 1937 1938 1939 1940 1941 1942 1943 1944 1945 1946 1947 1948 1949 1950 1951 1952 1953 1954 1955 1956 1957 1958 1959
Radio Households (thousands)
Percentage Average of All Households
60 400 1,250 2,750 4,500 6,750 8,000 10,250 13,750 16,700 18,450 19,250 20,400 21,456 22,869 24,500 26,667 27,500 28,500 29,300 30,600 30,800 32,500 33,100 33,998 35,900 37,623 39,300 40,700 41,900 42,800 44,800 45,100 45,900 46,800 47,600 48,500 49,450
0.2% 1.5 4.7 10.1 16.0 23.6 27.5 34.6 45.8 55.2 60.6 62.5 65.2 67.3 68.4 74.0 79.2 79.9 81.1 81.5 84.0 83.6 87.6 88.0 89.9 93.1 94.2 94.8 94.7 95.5 95.6 98.2 96.7 29,000 96.4 96.3 96.2 96.3 96.7
Cars with
Receiver cost
Radio (thousands)
Percentage of all
cars
$50
na na na
na na na
83
na na na na na
na na na na na
78
55
38
30 100 250 500 1,250 2,000 3,500 5,000 6,000 6,500 7,500 8,750 9,000 8,000 7,000
40
6,000 7,000 9,000 11,000 14,000
26
18,000 21,000 23,500 25,000 26,100
20 30,100 35,000 36,500 37,200
.l% .4 1.2 2.4 5.8 8.9 14.5 19.7 23.8 24.9 27.4 29.6 32.3 30.9 27.5 23.4 24.9 29.3 33.1 38.6 49.6 52.3 55.3 57.3 56.4 60.0 57.9 64.6 65.5 65.7
Sources: For radio households: National Associationof Broadcasters (to 1950) and Radio Adver1954) and tising Bureau (1950to 1959). For cars with radio: Electronic Industries Association (to Radio Advertising Bureau(1955 to 1959). Average receiver cost from Lichty and Topping (1975), page 521,table 41. Otto Schairer, in Patent Policies ofRadio Corporation of America (New York: RCA Institutes Press, 1939,page 571,reports an average retail price for radio receivers of $120 in 1929 and $43.60in 1937.
Appendix C HistoricalStatisticsonElectronicMedia
863
6-B Household Audio Market since 1960 FM Receivers as Percentage of Year 1960 1965 1970 1975
All Radios Sold 8yo 15 48
All Automobile Households Radios Sold na
na
na
6yo 14
74% 93
1980
65 78
95
38 78
1985
na
na
na
1990 1995 1998
na
95 95
na
na na
95
na
na
Households Owning
Cars with Radio Audio Disc
Component Compact
68% 79
na
93 95
na
95 95 19 95
na
48 95 95
53 55
na na
39% 50
2%
52
Sources: All data through 1980 as reported in Sterling (1984),pages 225-226, citing Electronics for all but household penetrationof FM, which isfrom Pulse Inc. Industries Association estimates for data through1975 and from Radio Advertising Bureau for data since1975.Data since 1980 from Electronic Industries Association and Radio Advertising Bureau.
Table 7 Television Receivers and Video Market: 1946-2000 As with radio, the television market became “mature”with the full spread of color, UHF-tuning capability and, by the 199Os, widespread availability of remote controls. The households VCR became available after 1975 (see Table 7-B). More recently, other video products have appeared (and some, such as the laserdisc, have come and gone), including large-screen projection receivers and videocams. For baseline data on numberof households, see “useful tools” on p. 826.
864
m
Appendix C HistoricalStatisticsonElectronicMedia
7-A Ownership of Television Receivers: 1946-2000
Television Percentage Households Multiple of All Year (thousands) Households Sets
Average Receiver Cost Percentage of Television Households UHF
B & W Color
-
1946 1947 1948 1949
8 14 172 940
1950 1951 1952 1953 1954
3,875 10,320 15,300 20,400 26,000
9.0 23.5 34.2 44.7 55.7
1 2 2 3 3
1955 1956 1957 1958 1959
30,700 34,900 38,900 41,925 43,950
64.5 71.8 78.6 83.2 85.9
3 5 6 8 10
1960 1961 1962 1963 1964
45,750 47,200 48,855 50,300 51,600
87.1 88.8 90.0 91.3 92.3
13 13 14 16 19
7.0 7.1 7.3 9.6 15.8*
1965 1966 1967 1968 1969
52,700 53,850 55,130 56,670 58,250
92.6 93.0 93.6 94.6 95.0
22 25 28 29 33
1970 1971 1972 1973 1974
59,700 61,600 63,500 65,600 66,800
95.2 95.5 95.8 96.0 96.1
1975 1976 1977 1978 1979
68,500 70,500 71,200 72,900 74,500
1980 1981 1982 1983 1984
.02% .04 .4 2.3
Remote Controls Color
$279
1% 1 190
na na na na
na na na na
.02% .05 .2 .4 .6
138
$500
.7 .9 1.2 1.9 3.1
132 125 128 118 109
392 381 352 346 348
27.5 38.0 47.5 57.0 66.0
5.3 9.7 16.3 24.2 32.0
106 98 92 74 78
356 371 362 336 328
34 36 38 41 42
73.0 80.0 81.0 86.0 89.0
39.2 45.1 52.8 60.1 67.3
75 81 79 77 79
317 324 319 308 316
96.3 96.4 97.4 97.6 97.7
43
91.0 92.0 92.0
70.8 73.3 76.0 81.0 83.0
84 89 89 85 86
341 349 350 350 350
76,300 79,900 81,500 83,300 83,800
97.9 98.1 98.1 98.1 98.1
50 51 53 55 55
na
85.0
16 20 24 30
90.0
89 89 88 81 83
367 370 364 350 334
1985 1986 1987 1988** 1989
84,900 85,900 87,400 88,600 90,400
98.1 98.1 98.1 98.1 98.2
57 57 59 60 63
82 81 83 75
331 328 333 336
1990 1991 1992
92,100 93,100 92,100
98.2 98.2 98.3
65 65 65
45 47 48 48
na 9.2% 8.1 8.0
na na 95.0 96.085.0 na 88.0 na 89.0
na na 91.0 na na 92.0 na na na na na 98.6
38 47 57 66 70 77 80 83
92.0 94.0 96.0 97.8 98.1
na na na na
na na na na
Appendix C HistoricalStatisticsonElectronicMedia
n
865
7-A (continued)
Television Percentage Households Remote Multiple of All Sets Year (thousands) Households
Percentage of Television Households Average Receiver Cost UHF
1993 1994
93,100 94,200
98.3 98.3
67 70
1995 1996 1997 1998 1999
95,400 95,900 97,000 98,000 99,400
98.3 98.3 98.4 98.3 98.2
71 72 74 74 74
2000
100,800
98.2
76 na
na 98.3 na 99.0 na na na na 99.5 na na
Controls Color 86 90 91 93 94 95 96
99.0 99.3 99.5 99.7 99.8
B&W
Color
na na na na na na na na
na
na na na na na na
na
*The all-channel receiver requirement passed by Congress in 1962 took effectin 1964. **Estimates Sources: NBC Corporate Planning dataas reprinted annuallyin TelevisionFactbook, exceptfor UHF penetration data, whichare from NBC Research based,in turn, on studies by the Advertising Research Foundation1968) (to and U.S. Census reports. Averageset prices taken from Television Digest(17:27:9) for 1960-1976, inclusive, using Electronic Industries Association data. Estimates for earlier years from Lichty and Topping (1975), page 522, table 42, and authors. Column on multiple sets is a compromise bythe authors due to extensive disagreement on this statistic between various original sources (which is why figures are rounded to nearest whole number). of Research as publishedin TelevisionFactbook-data closely paralleled Through 1963, the figures are those NBC by other sources. After1963, the figures are a compromise most closely following data supplied A. by C. Nielsen Co. 1976 television household and color penetration data derived from estimates in Blair’s 1977 Statistical 7Yends in Broadcasting.1977 data supplied byTelevisionFactbook staff.Color and UHF data generally from Nielsen fall survey of the previous year. Set prices for 1978-1988 from Television Digest (28:13:11 and 27:22:9), with blackand-white television prices reported to authors by Television Digest based on information from EIAConsumer Electronics. Television households 1978-1988 from Broadcasting Yearbook 1988, page G16. Data for multipleset and color households1978-1986 from annual issuesof Television Audience (Northbrook, m,: A. C. Nielsen Co.). 1988-2000 data from A. C Nielsen as cited by Television Bureauof Advertising website. Remote control information from Statistical Research Inc., “SMART TV Ownership Survey, Spring 1999” as presented in TV Dimensions 2000 (NewYork Media Dynamics,2000).
866
m
Appendix C HistoricalStatisticsonElectronicMedia
7-B Household Video Market since 1975 ~~
Sales to Dealers (in thousands of units) VCRs Year
Videodisc Projection Video Players* Cameras
-
-
-
157 223 307 200 200 200 220 250 120 168 206 224 287 272 257 155 349* 1,079* 3,700*
na
-
-
TVS
-
-
Percentage VCR of TV Households Households (thousands) with VCRs
-
-
200 400 840 1,440 2,530 4,580
61 114 190 296 414 489 517 1,169 1,604 2,000 2,286 2,962 2,864 2,815 3,088 3,209 3,650 3,634 3,650 3,829 4,596
29 57 139 117 144 195 266 304 293 300 265 351 380 404 465 636 820 887 917 1,070 na
17,660 30,920 42,560 51,390 58,000 63,180 67,000 69,000 72,000 74,000 77,270 79,580 81,670 82,910 84,140
na
na
85,810
8,880
-
0.3% 0.5 1.1 1.8 3.1 5.5 10.6 20.8 36.0 48.7 58.0 64.6 68.6 71.9 75.0 77.0 79.0 81.0 82.2 84.2 84.6 84.6 85.1
*Note: DVD sales figures replace videodisc player sales after 1996. Sources: All unit sales figures from Electronic Industries Association, Consumer Electronics Annual Review, various issues. VCRs for 1975-1977 are estimates based on import figures from Television Digest(February 1,1988),page 15.Video cameras for 1985-1988 andVCRs for 1988 from ELA Consumer ElectronicsUS Sales (June 1988),page 7.VCR households and percentageof television householdswith VCRs: &nds in TV (March 1988),Television Bureau of Advertising, page 5. 1989-2000 data in first four columns of sales data from Electronic Industry Association/ Alliance, US.Consumer Electronics Industry3998 and earlier issues.Last two columns fromTelevision Bureauo f Advertising, citingA.C. Nielsen data.
Appendix C HistoricalStatisticsonElectronicMedia
867
Table 8 Using Electronic Media: 1931-1999 Audience use of electronic media means radio through the 1940%then radio and television into the 1980s. After 1980 the development of cable networks began to substantially increase the number of viewing options for most Americans. Table 8-A records typical daily household use of radio and television. Table 8-B demonstrates how thenumber of television channels receivable in thetypical household substantially increased by the late 1980s and into the 1990s. And Table 8-C demonstrates how cable viewing options cut into traditional broadcast television audiences. For baseline data on number of households, see “useful tools” onp. 826.
a
8-A Hours of Radio and Television Use: 1931-1999 (selected years) Daily HoumMinutes per Household Year
Radio
1931 1935 1943 1946 1950 1955 1960 1965 1971 1976 1981 1986 1990 1995 1999
4:04 4:48 4:48 4:13 4:06 2:12 1:53 2:27
252 325 3:19 na na na
3:06
Television
na
4:35 4:51 5:06 529 6:02 6:18 6:45 7:08 6:53 7:17 726
Sources: Sterling (19841, pages 219-220, for data through 1981, citing diverse sources that are not strictly comparable butare still useful for trends. Specifically: 1931: Lumley (1934), page 196, reporting on a survey of some 14,000 listeners in 10 cities; 1935: CBS, Radio in 2937 (New York CBS, 19371, page 30, reporting on research in communities of 2,500 persons and over; 1943: C.H. Sandage, Radio Advertisingfor Retailers (Cambridge, Mass.: Harvard University Press, 19451, page 140, citing Nielsen Radio Index research for January of total listeningin cities over 100,000;1946 and 1965: Lichty and Topping (19751, page 523, citing A. C. Nielsen; 1950, 1955, 1960: A. C. Nielsen; 1971radio figure from CBS Radio Netw0rk:Affiliate Research/Promotion Reference Guide [New York CBS, 19721, citing RADAR studies; television figure from A. C. Nielsen; 1976 radio figure from Encyclomedia: Radio2978 (New York Decisions Publications, 19781, page6; television from Broadcasting (April 3, 19781, page 48, citing Nielsen. 1981 radio from Radio Advertising Bureau, citingRADAR television from Nielsen. 1986 from Television Bureau of Advertising, citing Nielsen. 1999 radio data is fromFall 1999 Arbitron American Radio ?lends and refers to average weekday time (weekendis 5:15); Television data are fromA. C. Nielsen.
868
m 8-B
Appendix C HistoricalStatisticsonElectronicMedia
Television Channels Receivable: 1964-1999
Percentage of all Television Households in: Channels Received 196419681972197619801985199019951999 Per Household 1 to 4 5 to 236
22
7 to 9 10 or more u p to 14
15 to 19 20-29 30-39* 4049 50-59 60 or more na
22
12% 17% 18% 41% 33 22 41 40 28 38 4 17432720
-
-
-
-
Average Channels per Household: na Receivable na naViewed na na na na na
-
-
-
-
7.7
9%
20
-
-
-
-
30% 50% 15 16 56 19
-
-
-
7 7
-
-
-
na na na na na na na
na62.0 41.1 33.2 18.8
na
*Actually, “30+” for 1985,1990 Source: A.C. Nielsen Co., in annual issues of Television Audience.
13.1 10.4
11% 7
6 5 7 12 52
a
8-C Broadcast and Cable Viewing Share: 1980-1999 (Audience shares are shown in italic font;number of networks in roman font) Cable Program Service Numbers and Shares Basic
Broadcast Station Shares Year
filiates
Independents
Public
Services
3% 3 3 3 4 4 4
19 29 30 31 37 41 54 61 64 64 65 67 71 80 94
1980 1981 1982 1983 1984 1985 1986 1987 1988 1989 1990 1991 1992 1993 1994 1995 1996 1997 1998 1999
58% 55 53 54 53 52 52 46 43 49 46
20% 20 21 20 21 21 22 21 20 12 11
3 3 3 3
na
na
na
104 126 131 139 147
PlX?miUm Share
Services
Pay Per View Services
Total Services (Incl. other)
7% 6
1 1 1 4 4 5 5 4
18 38 42 43 48 56 68 76 78 76
6 6 5 5 5
5 4 4 7 8
79 82 87 101 128
6 7 7 6
8 7 6 10 9
139 162 164 174 214
Share
8 9 11 11 10
17% 22 24 24 25 26 26
9 8 9 8 5 5 7 8 9 20
33 36 40 41 45
21 18 14 18 43
na
Note: ‘‘Services”refers to the number of cable program services. Pay cable viewing share combines premium and pay-per-view shares. Source: Nielsen Media Research as provided by Cable Advertising Bureau, Cable TVFacfs,as made available on NCTA website.
17
870
Appendix C Historical Statistics on ElectronicMedia
Table 9 Growth of Cable Television: 1952-2000 Data for various dates (usually in the fall or January 1)in each year, show estimates of the numberof cable systems, total number of cable subscribers, percentage of television households withcable, and theaverage number of subscribers per system. The latter figure is misleading, since even in 1977 only 22% of all reporting systems had 3,500 or more subscribers and only 10 systems had 50,000 or more. Beginning in 1975, Table 9-B shows the growth of pay and (in 1985) pay-per-view cable. Table 9-C illustrates the growth of selected national cable services. For baseline data on number of households, see “useful tools” on p. 826. 8
9-A Cable Television Systems: 1952-1969
Year 70 300
Number of Systems
1952 1953 0.2 1954 0.3 150 1955 300 1956 350 1957 450 1958 550 1959 1960 1961 1962 1963 1964 1965 1966 1967 1968 1969
0.1% 150
1.5
2.1 2.4 2.9 3.8 4.4 6.1
400 450 500 525 560 640 700 800 1,000 1,200 1,325 1,570 1,770 2,000 2,260
Number of Subscribers (thousands)
Percentage of Households with Cable Service
200 200
14 30 65
650 725 850 950 1,085 1,275 1,575 2,100 2,800 3,600
Average Number of Subscribers per System
0.5 0.9 0.9 1.1 1.3
375 667 700 857 982
1.4
1,016 1,036 1,063 950 904 962 1,003 1,186 1,400 1,593
1.7 1.9
Source: Original estimatesfrom Television Factbookand Television Digest.
871
Appendix C HistoricalStatistics on ElectronicMedia
m 9-B
Cable Television Systems since 1970
Number of Systems Year
Number of Subscribers (thousands)
Percentage of Pay-Per-view Average Cable Households Number o f Households with Cable with Subscribers Service per System Pay-TV na na na na na
Have Access Use
na na na na na na na na na na na na na na na
na na na na na na na na na na na na na na na
1970 1971 1972 1973 1974
2,490 2,639 2,841 2,991 3,158
4,500 5,300 6,000 7,300 8,700
7.6% 8.8 9.6 11.1 13.0
1,807 2,008 2,112 2,441 2,755
1975 1976 1977 1978 1979
3,506 3,651 3,800 3,875 4,150
9,800 10,800 11,900 12,500 13,600
14.3 15.5 17.3 17.1 18.3
2,795 2,958 3,132 3,355 3,398
23.6% 22.3 25.3 35.0 41.3
1980 1981 1982 1983 1984
4,225 4,375 4,825 5,600 6,200
15,200 17,830 24,290 28,320 32,930
19.9 22.3 29.8 34.0 39.3
3,787 4,183 4,352 5,057 5,311
50.6 67.2 75.6 84.2 84.1
1985 1986 1987 1988 1989
6,600 7,500 7,771 8,413 9,050
36,340 39,160 41,690 43,790 52,565
42.8 45.6 47.7 49.4 57.1
5,506 5,221 5,365 5,205 5,808
81.6 78.1 78.6 81.2 79.3
1990 1991 1992 1993 1994
9,575 10,704 11,035 11,108 11,214
54,871 55,786 57,212 58,834 60,495
59.0 60.6 61.5 62.5 63.4
5,731 5,212 5,185 5,297 5,395
77.1 74.7 77.5 75.2 72.2
30 12 36 42 48 52
1995 1996 1997 1998 1999
11,218 11,119 10,950 10,845 10,466
62,956 64,654 65,929 67,011 68,538
65.7 66.7 67.3 67.4 68.0
5,612 5,815 6,021 6,179 6,549
74.2 75.1 73.9 72.2 73.1
17 21 22 23 25
15% 16 18 21 26
3% 4 4 5 8 10 13 16 17
50 54 55 55 58 ~~~~~
Source: Households with pay-TV from NCTA, citing Paul Kagan Associates. Pay-Per-View Access and use data from Statistical Research, Inc. “SMART TV Ownership Survey, Spring 1999,” as reprinted in TV Dimensions 2000 (New York Media Dimensions,2000).p. 151.
m
9-C Selected Cable Network Services, 1980-2000 Millions of Subscribers as of:
Type of Service
Jan
Start-up AugOct JUl Date 1980 1984 1988 1992 1996
MW
Jul 2000
A. Largest Basic Services A&E Television Network American Movie Classics* Black Entertainment c-SPAN Cartoon Network Comedy Central CNBC CNN CNN Headline News Discovery Channel Disney Channel* ESPN ESPN2 (Fox) Family Channel History Channel Learning Channel Lifetime Television MSNBC MTV NickelodeodNick at Nite** QVC [Fashion) Sci-fi Channel TNN [Nashville)
TNT USA Network
W1 Weather Channel
4/81 10184 1/80 3/79 10192 4/91 4/89 6/80 1/82 6/85 4/83 9/79 10193 4/77 1/95 10179 2/84 7/96 8/81 7/79 10191 9/92 3/83 10188 9/80 1/85 5/82
34.2 12.0
-
8.0 19.3
-
-
-
28.5 12.6
-
0.3 34.0
-
12.0 20.0 39.2
51.0 36.0 31.0 55.0
46.9 32.7 33.8 3.8 47.8
22.0 45.0 58.9 47.3 56.0 6.0 59.1
-
-
-
-
-
54.1
5.0 20.1
12.8 39.8
15.6 53.4
22.6 20.1
42.7 41.2
54.9 55.5 8.3
-
41.1 17.9
-
-
-
-
-
65.0 60.0 44.2 66.1 24.7 37.0 56.0 67.8 60.2 67.0 16.1 67.9 30.8 64.0 15.0 45.0 64.0 na 65.9 64.0 54.6 29.1 64.8 66.6 67.2 54.0 61.7
65.0 69.6~ 44.2 77.0 56.6~ 56.9~ 71.0 77.0 72.5 77.4 45.1~ 77.0 63.0~ 64.0 55.2~ 72.0 75.0 20.0 72.2 76.0 72.2 53.9x 75.0 76.8 77.2 68.3 74.0
-
-
28.0 12.0
45.2 27.9 36.0
53.9 54.9 58.0 43.2 50.4
12/76 11/78 4/79
31.0 14.2 4.9
45.7 24.7 12.3
57.7 34.9 13.5
67.6 na 12.5
78.0 46.2~
12/80 8/80 11/72 7/76
0.7 2.5 12.5 4.5
1.1 5.1 15.9 6.3
7.0 6.3 17.6 10.0
22.0 8.9*** 20.8*** 14.8
37.1~ 17.5~ 29.0~ 16.5~
-
B. Superstations WTBS [Atlanta) WGN [Chicago) WOR (New York)
C. Pay Cable Services Bravo**** Cinemax
HBO Showtime
-
Note: All figures are rounded to nearest 100,000.Excluded are text-only services, and cable program services not operatingin 2000. *Indicates began as pay cable network and became basic. **Nick atNite began 7/85. ***As of 31 Dec 1995. “x” indicates network subscribers for 1998-99 season as reported by A. C. Nielsen. * ** * Bravo is a basic serviceon many cable systems. Sources: 1980 from Sterling (1984),pp. 207-208, citing Cablevision (January 12,1981),p. 28; 1984 from Channels Field Guide 1985, pp. 53ff;1988 fiom Broadcasting (22 August 1988)m pp. 32-33; &om same source (data for Jan-Mar 1992 from NCTA’s Cable Developments (March 1992); 1996 1996); 2000 from NCTA’s CableDevelopments on lineat http://www.ncta.com/glance.html A. C. Nielsen data (itemswith “x”) from 2000 Report on Television.
872
7
7
0
7
6
Appendix C HistoricalStatisticsonElectronicMedia873
m
9-D Concentration of Cable System Ownership: 1970-1999
As of MonthNear 63.5%
21197031.3% 611971 35.4 911972 43.7 42.0 1973 1011974 45.2 1011975 1976 311977 1978 1979 1980 411981 1982 411983 1011984 1011985 50.6 1011986 47.9 1011987 42.2 1011988 46.8 1011989 52.0 1011990 53.3 1011991 52.6 911992 52.2 911993 54.5 911994 54.8 911995 911996 911997 911998 69.7 911999
Percentage of Total CableHouseholds Served by Multiple System Operators: Top 5
Top 10
Top 50
19.9% 24.3 32.1 29.0 32.3 30.7
42.8
72.3
na
na
na
26.7
37.6
na na
na na
66.7 73.9
na
na
33.1
48.0
na
na
na
na na na
31.5 34.8
45.7 51.5
63.8 88.9
35.3 32.8 30.4 32.3 36.9
88.7 88.0
38.2 37.6 40.0 42.6 42.7 56.7
70.0
55.8
Source: Television Digest,Warren Communications News.
91.2 92.5 93.2
4
Appendix C HistoricalStatistics on ElectronicMedia
874
Table l 0 Growth of Satellite Distribution: 1975-2000 While the specific number of television receive-only (TVRO)antennas is hard to come by, by the mid-1980s virtually allcable systems and television stations had access to at least one. According to the NAB, 85% of radio stations in 1985 and 90% by 1987 used TVROs.Most broadcast stations had more than one to allow reception from the increasing number of different satellites used to distribute video or audio signals. The first DBS satellite was launched in 1994. Beginning then, household satellitesystems began a quick transition from large 3 to 10 feet in diameter dishes to far smaller antennas (often a mere foot across). Household Satellite Systems SatellitesDomestic
DBS
Unit sales toPercentage Households dealers
U.S.Subscribers Transponders
Satellites Year 3
120 156
1975 1977 1979 156 1981 1983 29 1985 26 1987 na 1989 na 1991 na 1993 na 1995 na 1996 na 1997 na 8 1998 na 1999 na 2000
Suppliers Carried
8 19
(thousands] (millions) with
48
-
420 504
-
6 8
-
na na na
-
na
-
-
-
na na na na na na 2,830 na na na
5 7 10.6 12.3 15.3
of
1 2,200 2 2,200 3 3 3 2
-
4.5 6.5 8.4
na
na na na na na na 250 300 281 349 2,235
na na
na na na na na na 3%
10
Sources: For data through 1983, see Sterling (1984), p. 34, which draws data from NAB and NCTA. DBS information from Satellite Broadcasting and Communications Assn. Website. Household Satellite system data from Electronic Industry Alliance. Households with satellite reception capability from Statistical Research, “SMART TV Ownership Study, Spring 1999,” as reprinted in TVDimensions 2000 (New York Media Dimensions, 2000). p. 106.
Table l 1 Electronic Media Employment and Regulation: 1925-2000 Two final measures of the growth of electronic media are the expanding number of employees in radio, television and eventually cable television organizations, and theparallel growth of government regulation (here represented chiefly by the FCC annual budget and number of employees) for selected years.
Appendix C HistoricalStatisticsonElectronicMedia
8
875
11 Electronic Media Employment and Regulation, 1925-2000 Regulation (FCC) Budget
Year 1925 1930 1935 1940 1945 1950
Broadcast Cable Industry Industry Employees
Constant $
Actual $
(1982-84 = 100)
Employees
(Dollarfigures in millions)
na
na
6.7
$1.6 4.5 8.2 13.1 34.5 29.2
385% 181 62 163 (13)
131 442 625 1,513 1,285
6.9
25.7
(14)
1,094
10.6
35.6
38
1,396
16.9
53.7
51
1,502
24.6
63.8
19
1,553
87.2
37
2,073
92.3
6
2,094
88.7
(4)
1,825
82.3
(7)
1,705
121.3
48
2,022
$0.2
6,000 14,600 25,700 37,800 66,000 na (Radio 52,000;T V 14,000) 1955 77,600 na (Radio 45,300;T V 32,300) 93,600 na 1960 (Radio 53,000;TV 40,600) 1965 109,900 na (Radio 60,200;TV 47,700) 1970 129,400 na (Radio 71,000;T V 58,400) 197546.9 24,300 144,100 (Radio 81,800;T V 62,300) 1980 76.0 33,654 176,300 (Radio 98,000;TV 78,300) 1985 na 95.4 72,306
Percent Number Real of FCC Change Personnel
(Radio nu; TVna) 1990
na
107.5 102,656
(Radio nu; TVna) 1995 na 2000
235,700 116,056 184.9 (Radio 113,000;T V 122,700) na 210.0
122.0
(-1 .
.
1,933
Sources: Data from Dept of Commerce (for 1925-30), Federal Radio Commission (for 1930), and FCC (since 1935).Data for 1930 combines Dept. of Commerce Radio Division ($295,400),and FRC ($460,000),though personnel data includes only the FRC. Broadcast employment data from19852000 from NTIA, citing U.S. Bureau of Labor Statistics. Cable employment data from FCC, as cited by NCTA. Not included in figures above are data for Office of Telecommunications Policy (1970, 1975); and National Telecommunications and Information Administration (since 1980)which is as follows: Annual Budget
Year
(Millions)
Personnel
1970 1975 1980 1985 1990 1995 2000
$ 2.1
45 60 269 294 281 336 280
8.4 17.6 42.6 41.0 113.3 73.4
Source: James McConnaughey, NTIA. The 1995 budget jump was in part for special programs that were short-term.
This Page Intentionally Left Blank
a77
This listing, which stresses American broadcasting although it provides a few titles from the United Kingdom and Canada, is selective-a complete bibliography, even one restricted to books, would fill a volumeitself. What follows is designed to support the “FurtherReading’’ annotations following each chapter and give readers multiple points of entry into the world of broadcasting history. Some publications not designed to be historical when published are included for the light they shed on a particular period or phase of broadcasting. Some titles, included only because of a shortage of material on agiven topic, are of marginal quality. In addition to the books listed below, a number of journals and magazines are noteworthy for publishing material on broadcasting history. Among them are the Journal of Broadcasting & Electronic Media, Journalism History, Journal of Radio Studies, Historical Journal of Film, Radio & Television, Journalism and Mass Communication Quarterly, Communication Booknotes Quarterly, and the Smithsonian magazine. A number of films on broadcasting history topics have been run under the American Experience PBS program label in recent years, including asuperficial version of Tom Lewis’ Empire of the Air (filmed by Ken Burns), and several more exacting documentaries on figures in the electronic media (e.g., Alexander Graham Bell, Rod Serling, Vladimir Zworykin, and Philo Farnsworth), generally funded by theSloan Foundation. Those who are particularly interested in specific radio or television programs will find excellent lists and descriptions in Brooks & Marsh, Buxton & Owen, Dunning, McNeil and similar volumes in the following bibliography. Brooks & Marsh also has a list of Emmy winners. Postpublication reprint editions and bibliographies of special value are noted. (The New York Times Company closed down Arno Press in the early 1980s, but manyof the books so annotated below, gathered into collections by the authors of this volumeand others, are still available from Ayer Company Publishers, 6 Lower Mill Road, North Stratford, N H 03590 1-888-2677323; www.scry.com/ayer/). Periodical entries include years of publication, frequency of appearance, and a brief line of description. For all books, the year shown is thatof original publication unless a later edition is specified. American editionsof books published originally in Britain are usually listed under the American publisher. Generally omitted are script collections, histories of individual stations, special material on old radios, and 878
Appendix D A SelectedBibliography
879
broadcasting in specific other countries (except the U.K.). As a rule, the latest edition of a title is cited. While some of this material is in print or has been reprinted for the of major library market, most of it is not currently available outside libraries. We have intentionally omitted most materials, including dissertations, that cannot be found in most libraries-no matter how good they may be. Likewise, we list few periodical articles due to space limitations. The listing is currentas of the middleof 2001. Following the bibliography is a selected list ofWeb sites, museums, libraries, and archives for those searching for more information. Abramson, Albert H. Electronic Motion Pictures: A History of the Television Camera. Berkeley: University of California Press, 1955 (reprinted by Arno Press, 1974). . The History of Television, 1880-1941. Jefferson, NC: McFarland, 1987.
. Zworykin: Pioneer
of Television. Urbana: University of Illinois
Press, 1995. Adir, Karin. The Great Clowns of American Television. Jefferson, NC: McFarland, 1988. Adler, Richard P., (Ed.). All in the Family: A Critical Appraisal. New York: Praeger, 1979. Adler, Richard P., et al. The Efects of Television Advertising on Children. Lexington, Mass: Lexington Books, 1980. Aitken, Hugh G. J. Syntony and Spark: The Origins of Radio. New York: Wiley/Interscience, 1976. . The Continuous Wave: Technology and American Radio, 19001932. Princeton, NJ: Princeton University Press, 1985. Albig, William. Modern Public Opinion. New York: McGraw-Hill, 1956. Alford, W. Wayne. History of the NAEB: 1955-1965. Washington: NAEB, 1966. (For the earlier period, see Hill, Harold.) Alisky, Marvin. Latin American Media: Guidance and Censorship. Ames: Iowa State University Press, 1981. Allen, Craig. Eisenhower and the Mass Media: Peace, Prosperity, and Prime-7Tme TV Chapel Hill: University of North Carolina Press, 1993. Allen, Fred. Zleadmill to Oblivion. Boston: Little, Brown, 1954. Allen, Frederick Lewis. Only YesterdayNew York: Harper, 1931. . Since Yesterday New York: Harper, 1940. Allen, Robert C., (Ed.). To BeContinued . . . Soap Operas Around the World. New York Routledge, 1995. Allen, Steve. The FunnyMen. New York Simon and Schuster, 1956.
880
Appendix D A Selected Bibliography
Aly, Bower,tk Gerald D.Shively. A Debate Handbook on RadioControl and Operation. Norman: University of Oklahoma, 1933. Anderson, Kent. Television Fraud: The History and Implications of the Quiz ShowScandals. Westport, C T Greenwood, 1979. Andrews, Bart. Lucy & Ricky b Fred & Ethel: The Story of “I Love Lucy. ” New York: Dutton, 1976. Annals of the American Academy of Political and Social Science. Philadelphia: The Academy, bimonthly, 1890-present ( i n the 1980s, Sage Publications became the publisher for the Academy). The following issues (reprinted in a volume by Arno Press, 1971) deal exclusively with broadcasting: Stewart, Irwin, (Ed.), “Radio,” Supplement to No. 142 (March 1929); Hettinger, Herman S., (Ed.), “Radio:The Fifth Estate,’’ No.177 (January 1935);Hettinger, Herman S., (Ed.), “New Horizons in Radio,” No. 213 (January1941). Antebi, Elizabeth. The Electronic Epoch. New York: Van Nostrand Reinhold, 1982. Appleyard, Rollo. Pioneers of Electrical Communications. London: Macmillan, 1930 (reprinted by Books for Libraries). Archer, Gleason L. History of Radio to 1926.New York: American Historical Society, Inc., 1938 (reprinted by Arno Press, 1971). . Big Business and Radio.New York: American Historical Company, Inc., 1939 (reprinted by Arno Press, 1971). Arlen, Michael J. Living-Room War. New York Viking, 1969. . Thirty Seconds. New York: Farrar, Straus & Giroux, 1980. Arnheim, Rudolf. Radio. London: Faber and Faber, 1936 (reprinted by Arno Press, 1971). Arnold, Frank A. Broadcast Advertising: The Fourth Dimension-Television Edition. New York Wiley, 1933. Atkinson, Carroll. American Universities and Colleges That Have Held Broadcast License. Boston: Meador, 1941. Radio Network Contributionsto Education. Boston: Meador,1942a. , Broadcasting to theClassroom by Universities and Colleges.Boston: Meador, 1942b. . Radio in State and Territorial Educational Departments. Boston: Meador, 1942c. . Radio Programs Intended for Classroom Use. Boston: Meador, 1942d. Auletta, Ken. Three Blind Mice: How theTV Networks Lost Their Way.New York: Random House, 1991. . The Highwaymen: Warriors of the Information SuperhighwayNew York: Random House, 1997.
.
Appendix D A Selected Bibliography
881
Avery, Robert K., (Ed.). Public Service Broadcasting in Q Multichannel Environment. White Plains, Ny: Longman, 1993. Baer, WalterS. Cable Television:A Handbook for Decision Making. New York Crane, Russak,1974. Baer, Walter S., et al. Concentration of Mass Media Ownership: Assessing the State of Current Knowledge. Santa Monica, CA: Rand Corp., 1974. Bagdikian, Ben H.The Information Machines: Their Impact Men on and the Media. New York: Harper, 1971. Baker, John C. Farm Broadcasting: The First Sixty Years. Ames: Iowa State University Press, 1981. Baker, William F., & George Dessart. Down the n b e : An Inside Account of the Failure of American Television. New York Basic Books, 1998. Baker, W. J. A History of the Marconi Company New York: St. Martin's Press, 1972. Baldwin, Thomas, & D. Stevens McVoy. Cable Communications. 2nd ed. Englewood Cliffs, NJ:Prentice-Hall, 1988. Balfour, Michael. Propaganda in War 2939-2945: Organizations, Policies, and Publics in Britain and Germany London: Routledge & Kegan Paul, 1979.
Banks, Jack.Monopoly Te1evision:MTV's Quest to Control the Music. Boulder, CO: Westview, 1996. Bannerman, R. LeRoy. Norman Corwin and Radio: The Golden Years.University of Alabama Press,1986. Banning, William Peck. Commercial Broadcasting Pioneer: The WEAF Experiment, 2922-2926. Cambridge, M A : Harvard University Press, 1946. Barfield, Ray. Listening to Radio: 2920-2950. Westport, CY Praeger, 1996. Barnouw, Erik. A Tower in Babel: A History of Broadcasting in the United States to 2933.New York Oxford University Press, 1966. The Golden Web: A History of Broadcasting in the United States, 2933-2953. New York: Oxford University Press, 1968. . The Image Empire: A History of Broadcasting in the United States from 2953.New York: Oxford University Press, 1970. The Sponsor: Notes onQ Modern Potentate. New York Oxford University Press 1978. , Tube of Plenty: The Evolution of American Television. 3rd ed. New York: Oxford University Press, 1990. . Media Marathon. Durham, NC: Duke University Press, 1996. Barrett, Marvin, (Ed.). The Alfred I. DuPont-Columbia University Surveyof Broadcast Journalism. New York: Grosset & Dunlap (1969-1971),Crowell
.
.
882
Appendix D A SelectedBibliography
(1972-19801,Everest (1982).(Note: main 1972 and bienniallyto 1982.)
titlevaries; published annually to
Barron, Jerome A. Freedom of the Press for Whom? TheRight ofAccess to MQSS Media. Bloomington: Indiana University Press, 1973. Barry, Gerald, et al., (Eds.). Communication and Language: Networks of Thought and Action. New York Doubleday, 1965. Batson, Lawrence D. Radio Markets of the World, 1930. Washington, DC: Department of Commerce TradePromotion Series No. 109,1930 (reprinted by Arno Press, 1971). Baudino, Joseph E.,& John M. Kittross, “Broadcasting’s Oldest Stations: An Examination of Four Claimants,” Journal of Broadcasting 21:1:61-83 (Winter 1977). Baughman, James L. Television’s Guardians: The FCC and the Politics of Programming 1958-1 967. Knoxville: University of Tennessee Press, 1985. . The Republic of Mass Culture:Journalism, Filmmaking, andBroadcasting in America since 1941.Baltimore: Johns Hopkins University Press, 1992.
BBC. War Report: A Record of Dispatches Broadcast by theBBC’s War Correspondents with the Allied Expeditionary Force 6 June 1944-5 May 1945. London: Oxford University Press, 1946. BBC Handbook. London: BBC Publications, 1928-1987, annual. (Title varies: “Handbook” 1928-1929, “Yearbook” 1930-1934, “Annual” 19351937, “Handbook” 1938-1954, “Yearbook” 1943-1952, not published in 1953-1954, “Handbook” 1955-1980, and “Annual Report and Handbook” 1981-1987.) Publication ceased in 1987. Bedell, Sally.Up the lbbe: Prime-llme W i n the Silverman Years.New York Viking, 1981. Beniger, James R. The Control Revolution: Technological and Economic Origins of the Information Socieq. Cambridge, M A : Harvard University Press, 1986. Benjamin, Burton. Fair Play:CBS, General Westmoreland and How a Television DocumentaryWent Wrong. New York: Harper & Row, 1988. Benjamin, LouiseM. “In Search of the Sarnoff ‘MusicBox’ Memo:Separating Myth from Reality,” Journal of Broadcasting k Electronic Media, 37:3: 325-335 (Summer 1993). . “In Search of the Sarnoff ‘MusicBox’ Memo: Nally’s Reply.”Paper presented to the History Divison of the Broadcast Education Association, Las Vegas,April 2001. . Freedom of the Airand the Public Interest: First Amendment Rights in Broadcasting to 1935. Carbondale: Southern Illinois University Press, 2001.
Appendix D A Selected Bibliography
883
Bennett, Jeremy. British Broadcasting and the Danish Resistance Movement, 1940-1 945. Cambridge: CambridgeUniversity Press, 1966. Bensman, Marvin R. Broadcast Regulation: Selected Cases and Decisions. Lanham, MD: University Press of America, 1983,1986. . The Beginning of Broadcast Regulation in the ’Ttventieth Century. Jefferson, NC: McFarland, 2000. Berg, Jerome S. On theShort Waves, 1923-1 945. Jefferson, NC: McFarland, 1999.
Bergmeier, Horst J. P,, & Rainer E. Lotz. Hitler’s Airwaves: The InsideStory of Nazi RadioBroadcasting and Propaganda Swing. New Haven, CT Yale University Press, 1997. Bergreen, Laurence. Look Now, Pay Later: The Rise of Network Broadcasting. New York: Doubleday,1980. Beville, Hugh Malcolm, Jr. Social Stratification of the Radio Audience. Princeton, NJ: Princeton University Office of Radio Research, 1939. . Audience Ratings: Radio, Television, Cable. 2nd ed. Hillsdale, NJ: Lawrence Erlbaum Associates, 1988. Bibb, Porter. It Ain’t QS Easy QS it Looks: Ted 7izrner’sAmazing Story. New York: Crown, 1993. Bilby, Kenneth. The General:David Sarnof and the Rise of the Communications Industry.New York: Harper & Row, 1986. Billboard (1894-present; monthly, then weekly). Trade periodical, mainly of the music industry, with a good deal of information on radiomusic. Bird, William L., Jr. “Better Living” Advertising, Media, and the New Vo~abularyof Business Leadership, 1935-1 955. Evanston, IL: Northwestern University Press, 1999. Bishop, George F.,et al. The Presidential Debates:Media, Electoral and Policy Perspectives. New York Praeger,1978. Blake, George G. History of Radio Telegraphy and Telephony, London: Chapman and Hall, 1928 (reprinted by Arno Press, 1974). Blakely, RobertJ. To Serve the Public Interest: Educational Broadcasting in the United States. Syracuse, Ny: Syracuse University Press, 1979. Blanchard, Margaret A. Exporting the First Amendment: The PressGovernment Crusadeof 1945-1 952. New York: Longman, 1986. . (Ed.). History of the MQSS Media in the United States. Chicago: Fitzroy Dearborn, 1998. Bliss, Edward, Jr., (Ed.). In Search of Light: The Broadcasts of Edward R. Murrow, 1938-1 961. New York Knopf, 1967. Now the News: The Story of Broadcast Journalism. New York: Columbia University Press, 1991.
.
884
Appendix D A Selected Bibliography
Block, Alex Ben. Outfoxed: Marvin Davis, B QDiller, ~ Rupert Murdoch, Joan Rivers, and the Inside Story of America’s Fourth Television Network, New York St. Martin’s Press, 1990. Blondheim, Menahem.News Over the Wires: The Telegraph and the Flow of Public Information in America, 2844-2897. Cambridge, MA: Harvard University Press, 1994. Bluem, A. William. Documentary in American Television: Form, Function, Method. New York: Hastings House, 1965. Blum, Daniel.A Pictorial History of Television. Philadelphia: Chilton, 1959. Blume, Keith. The Presidential Election Show: Campaign ’84 and Beyond on the Nightly News. South Hadley, M A : Bergin & Garvey, 1985. Blythe, Cheryl, and Susan Sackett. Say Goodnight, Gracie! The Story of Burns and Allen. New York: E. P. Dutton, 1986. Boddy, William. Fifties Television: The Industry and its Critics. Urbana: University of Illinois Press, 1990. Boettinger, H. M. The Telephone Book: Bell, Watson, Vail and American Life: 2876-1983. New York: Stearn Publishers, 1983. Bogart, Leo. The Age of Television. New York: Ungar, 1956, 1958, 1972. (1972 edition is a facsimile reprint of the 1958 edition, with extensive added notes.) Boorstin, Daniel J. The Americans: The Democratic Experience. New York: Random House, 1973. Bower, Robert T. Television and the Public. New York Holt, Rinehart and Winston, 1973. . The Changing Television Audience in America. New York Columbia University Press, 1985. Boyd, Douglas A.Broadcasting in the ArabWorld. 3rd ed. Ames: IowaState University Press, 1999. Boyer, Peter J. Who Killed CBS? The Undoing of America’s Number One News Network.New York: Random House, 1988. Braestrup, Peter. Big Story: How the American Press and Television Reported and Interpreted the Crisis of Tet 1968 in Vietnam and Washington. Boulder, CO: Westview, 1977 vols.). (2 (Several shorter versions of this title were published.) Braun, Ernest, & Stuart Macdonald. Revolution in Miniature: The History and Impact of Semi-conductor Electronics. 2nd ed. Cambridge: Cambridge University Press, 1982. Braun, Mark J. AM Stereo and the FCC: Case Study of a Marketplace Shibboleth. Norwood, NJ: Ablex, 1994. Brenner, Daniel L., & Monroe E. Price. Cable Television and Other NonBroadcast Video. New York: Clark Boardman, 1986.Regular updates.
Appendix D A Selected Bibliography
885
Briggs, Asa A. The Birth of Broadcasting: The History of Broadcasting in the United Kingdom [vol. I, to 19261. London: Oxford University Press, 1961. , The Golden Age of Wireless: The History of Broadcasting in the United Kingdom [vol. 11, 1926-19391, London: Oxford University Press, 1965. , The War of Words: The History of Broadcasting in the United Kingdom [vol. 111, 1939-19451. London: Oxford University Press, 1970. . Sound and Vision:The History of Broadcasting in the United Kingdom [vol. IV, 1945-19551. London: Oxford University Press, 1979. . Competition: The History of Broadcasting in the United Kingdom [vol. V, 1955-19741. London: Oxford University Press, 1995. . The BBC: The First Fifty Years. London: Oxford University Press, 1986. Bright, Charles. Submarine Telegraphs: Their History, Construction and Working. London: Crosby, Lockwood and Son, 1898 (reprinted by Arno Press, 1974). Brindze, Ruth. Not to Be Broadcast: The Truth about the Radio. New York: Vanguard, 1937 (reprinted by Da Capo, 1974). Brinkley, Joel. Defining Vision: The Battle for the Future of Television. New York: Harcourt Brace, 1997. Broadcasting (1931-1941, biweekly; 1941-present, weekly). Title has varied: Broadcasting 6.Cable in 1990s. The most important tradejournal of the broadcasting industry, with news, special analyses, statistics, and reviews of all aspects of radio and television, especially advertising, programs, the networks, and regulatory trends. The following special issuesare of special value in broadcasting history: “Two Exciting Decades” (October 16, 1950), pp. 67-168; “Radio at 40 Enters Its Critical Years” (May 14, 1962), pp. 75140; “Broadcasting at 50: Can It Adapt?” (November 2, 1970), pp. 65154; “TheFirstAmendment andthe FifthEstate”(January 5, 1976), pp. 44-100; “The First 50 Years of NBC” (June 21, 1976), pp. 29-92; “CBS: The First Five Decades’’ (September 19, 1977), pp. 45-116; “The 50th Anniversary Issue: On the Road to 2001,” (October 12, 1981), pp. 115-311; “Sixty Years of NBC,” (June 9, 1986), pp. 49-119, and “Cable: The First Forty Years,” (November21,1988), pp. 35-49. Broadcasting Yearbook (1935-present). Title has varied. Standard directory of broadcasting stations and other elements of the industry, with useful tables of data. mock, Gerald W. The Telecommunications Industry: The Dynamics of Market Structure. Cambridge, M A : Harvard University Press,1981. Brooks, John. Telephone: The First Hundred Years. New York: Harper& Row,
1976.
886
Appendix D A Selected Bibliography
Brooks, Tim,& Earle Marsh. The Complete Directory to Prime 7Ime Network TV Shows, 2946-Present. 7th ed. New York: Ballantine, 1999. Brown, Les. Television: The Business Behind the Box. New York: Harcourt Brace Jovanovich, 1971. . Les Brown’s Encyclopedia of Television. 3rd ed. Detroit: Gale Research, 1992. Brown, Robert J. Manipulating the Ether: The Power of Broadcast Radio in Thirties America.Jefferson, NC: McFarland, 1998. Brown, Ronald. Telecommunications: The Booming Technology.New York: Doubleday, 1970. Browne, Donald R. International Radiobroadcasting: The Limits of the Limitless Medium. New York Praeger, 1982. . Electronic Media and Industrialized Nations. Ames: Iowa State University Press, 1999. Bruce, RobertV. Bell: Alexander Graham Bell and the Conquest of Solitude. Boston: Little, Brown, 1973. Bryson, Lyman. Time for Reason about Radio. New York: George Stewart, 1948.
Buehler, E. C. American vs. British System of Radio Control. New York: H. W. Wilson “Reference Shelf” Series, VIII:lO, 1933. Bulman, David. Molders of Opinion. Milwaukee WI: Bruce, 1945. Burlingame, Roger. Don’t Let Them Scare You: TheLife and Zmes of Elmer Davis. Philadelphia: Lippincott, 1961. Burns, R. W. British Television: The Formative Years. London: IEE/Science Museum, 1986. . Television:An International History of the Formative Years.London: Institution of Electrical Engineers, 1998. Burns, Russell. John Logie Baird: Television Pioneer. London: Institution of Electrical Engineers, 2000. Burrows, A. R. The Story of Broadcasting. London: Cassell, 1924. Buxton, Frank, & Bill Owen. The Big Broadcast: 2920-2950. New York: Viking, 1972. Buzenberg, Susan, & Bill Buzenberg, (Eds.). Salant, CBS, and the Battle for the Soul of Broadcast Journalism. Boulder, CO: Westview, 1999. Byron, Christopher M. The Fanciest Dive: What Happened When theMedia Empire of lIme/Life Leaped Without Looking into the Age of High-Tech. New York W. W. Norton, 1986. Campbell, Robert. The Golden Years of Broadcasting: A Celebration of the First 50 Years ofRadio and TV on NBC. New York Charles Scribner’s Sons, 1976.
Appendix D A Selected Bibliography
887
Cantor, Muriel G. The Hollywood TV Producer: His Work and His Audience. New York: Basic Books,1972. Cantor, Muriel, & Suzanne Pingree. The Soap Opera. Beverly Hills, CA: Sage, 1983. Cantril, Hadley, with the assistance of Hazel Gaudet and Herta Herzog. The Invasion from Mars: A Study in the Psychology of Panic. Princeton, NJ: Princeton University Press, 1940 (reprinted by Harper, 1965). Cantril, Hadley, & Gordon W. Allport. The Psychology of Radio. New York: Harper, 1935 (reprinted by Arno Press, 1971). Caristi, Dominic. “First in Education: WOI-TV, Ames Iowa,” pp. 195-209 in Michael D. Murray & Donald G. Godfrey, (Eds.), Television in America: Local Station Historyfrom Across the Nation. Ames: Iowa State University Press, 1997. Carnegie Commission on Educational Television. Public Television: A Program for Action.New York: Harper & Row, 1967. Carnegie Commission on the Futureof Public Broadcasting. A Public Trust. New York: Bantam Books, 1979. Carpenter, Humphrey. The Envyof the World: Fifty Years of the BBC Third Programme and Radio 3,1946-2996. London: Phoenix, 1997. Carpenter, Ronald H. Father Charles E. Coughlin: Surrogate Spokesman for the Disaffected. Westport, C T Greenwood, 1998. Carter, Samuel, 111. Cyrus Field: Man of Two Worlds. New York Putnam, 1968.
Cassata, Mary, & Thomas Skill. Life on DaytimeTelevision: Tuning-in American Serial Drama. Norwood, NJ: Ablex, 1983. Castleman, Harry, & Walter J. Podrazik. Watching TV: Four Decades of American Television. New York: McGraw-Hill, 1982. Cater, Douglas, & Stephen Strickland. TV Violence andthe Child: The Evolution and Fate of the Surgeon General’s Report. New York: Russell Sage Foundation, 1975. Chappell, Matthew N., & C. E. Hooper. Radio Audience Measurement. New York: Stephen Daye, 1944. Chase, Francis, Jr. Sound and Fury: An Informal History of Broadcasting. New York: Harper, 1942. Cheney, Margaret, & Robert Uth with Jim Glenn. Tesla:Master of Lightning. New York Barnes & Noble Books, 1999. Chester, Edward W. Radio, Television, and American Politics. New York: Sheed and Ward, 1969. Childs, Harwood L.,& John B. Whitton, (Eds.). Propaganda by Short Wave. Princeton, NJ: Princeton University Press, 1942 (reprinted by Arno Press, 1972).
888
Appendix D A Selected Bibliography
Chiu, Tony, (Ed.).CBS: The First 50 Years. Los Angeles: GeneralPublishing, 1998.
Christensen, Mark, and Cameron Stauth. The Sweeps: Behind the Scenes in Network TI,? New York: Morrow, 1984. Christman, Trent. Brass Button Broadcasters. Paducah, K Y Turner, 1992. Clarke, Arthur C. Voice Across the Sea. (Rev. ed.). New York Harper & Row, 1975.
Cloud, Stanley, & Lynne Olson. The Murrow Boys: Pioneers on the Front Lines of Broadcast Journalism. Boston: Houghton Mifflin, 1996. Coates, Vary T., & Bernard Finn. A Retrospective Technology Assessment: Submarine Telegraphy-The Zlansatlantic Cable of 1866. San Francisco: San Francisco Press, 1979. Codding, George A., & Anthony M. Rutkowski. The International Telecommunication Union in Q Changing World. Dedham, MA: Artech House, 1982.
Codel, Martin, (Ed.). Radioand Its Future. New York: Harper, 1930 (reprinted by Arno Press, 1971). Coe, Lewis. The Telegraph: A History of Morse’s Invention and its Predecessors in the United States. Jefferson, NC: McFarland, 1993. . The Telephone andIts Several Inventors. Jefferson, NC: McFarland, 1995.
. Wireless Radio: A Brief History. Jefferson, NC: McFarland, 1996. Cogley, John. Report on Blacklisting II: Radio-Television. New York Fund for the Republic, 1956 (reprinted by ArnoPress, 1971). Cole, Barry G., (Ed.). Television: A Selection of Readings from TV Guide Magazine. New York: Free Press, 1970. . Television Today: A Close-up View: Readings From “TV Guide. ” New York: Oxford, 1981. Cole, Barry G., & Mal Oettinger. Reluctant Regulators: The FCC and the Broadcast Audience. Reading, M A : Addison-Wesley, 1978. Cole, J. A. Lord Haw-HQWand William Joyce. New York Farrar, Straus & Giroux, 1964. Collins, Mary. National Public Radio: The Cast of Characters. Washington: Seven Locks Press, 1993. Collins, Robert. A Voice from Afar: The History of Telecommunications in Canada. Toronto: McGraw-Hill Ryerson, 1977. Columbia Broadcasting System. Crisis. New York: CBS, 1938. Radio and Television Bibliography New York: CBS, 1942. . Network Practices. New York: CBS, 1956.
.
Appendix D A Selected Bibliography
889
. 10:56:20 p m EDT 7/20/69:The Historic Conquest of the Moon QS Reported to the American People by CBS News over the CBS Television Network. New York: CBS, 1970. Communication Booknotes Quarterly (1969-present, quarterly; under this title since 1998, previously Broadcasting Bibliophiles Booknotes, MQSS Media Booknotes, Communication Booknotes). Short reviews of current literature in the field. Compaine, BenjaminM., (Ed.).UnderstandingNewMedia: Trends and Issues in Electronic Distribution of Information. Cambridge, MA: Ballinger, 1984.
Compaine, Benjamin M., & Douglas Gomery. Who Owns theMedia: Competition and Concentration in the Mass Media Industry. 3rd ed. Mahwah,NJ: Lawrence Erlbaum Associates, 2000. Comstock, George, et al. Television and Human Behavior. Santa Monica, CA: Rand Corp., 1975 (three volumes, all annotated bibliography). . Television and Human Behavior. New York Columbia University Press, 1978. Connah, Douglas. How toBuild the Radio Audience. New York Harper, 1938. Cook, Rick, & Frank Vaughan. All About Home Satellite Television. Blue Ridge Summit, PA: TAB, 1983. Coons, John E., (Ed.). Freedom 6 Responsibility in Broadcasting. Evanston, IL: Northwestern University Press, 1961. Cooper, Isabella M. Bibliography on Educational Broadcasting. Chicago: University of Chicago Press, 1942 (reprinted by Arno Press, 1971). Coverage of 1,800 items is far broader than title suggests, including all of broadcasting in well-organized and annotated indexed guide. Cooper, Kent. Barriers Down: The Story of the News AgencyEpoch. New York: Farrar & Rinehart, 1942 (reprinted by Kennikat, 1969). Corporation for Public Broadcasting. Annual Report. Washington: CPB, 1969-present. . Public Television Program Content. Washington: CPB, 1974-present (biennial). . Status Report on Public Broadcasting. Washington: CPB, 1973, 1977, 1980 (title varies). . Summary Statistics of CPB-QualifiedPublic Radio Stations. Washington: CPB, 1970-present (irregular; title varies). . Summary Statistics of Public Television Licensees. Washington: CPB, 1970-present (irregular; title varies). Counterattack, editors of. Red Channels: The Report of Communist Influence in Radio and Television. New York American Business Consultants, 1950.
890
Appendix D A Selected Bibliography
Corr, 0.Casey. KING: The Bullitts of Seattle and Their Communications Empire. Seattle: University of Washington Press, 1996. Corwin, Norman. Thirteen by Corwin. New York: Henry Holt, 1942. . More by Corwin. New York HenryHolt, 1944. . On Q Note of fliumph. New York: Simon & Schuster, 1945. . Untitled. New York: Henry Holt, 1947. Covert, Catherine L., & John D. Stevens, (Eds.). MQSSMedia Between the Wars: Perceptions of Cultural Tension. Syracuse, Ny: Syracuse University Press, 1984. Cowan, Geoffrey. See No Evil: The Backstage Battle over Sex and Violence on Television. New York: Simon and Schuster, 1979. Cox, Jim. The Great Radio Soap Operas. Jefferson, NC: McFarland, 1999. Crosby, John. Out of the Blue: A Book about Radio and Television. New York: Simon and Schuster, 1952. Crowley, David, and Paul Heyer. Communication in History. 2nd ed.White Plains, N Y : Longman, 1991. Csida, Joseph, & June Bundy Csida. American Entertainment: A Unique History of Popular Show Business. New York: Watson-Guptill, 1978. Culbert, David Holbrook.News for Everyman: Radio and Foreign Affairs in Thirties America.Westport, CT: Greenwood, 1976. Curtin, Michael. RedeemingtheWasteland: TelevisionDocumentary and Cold War Politics, New Brunswick, NJ: Rutgers University Press, 1995.
Czitrom, Daniel J. Media and the AmericanMind from Morse to McLuhan. Chapel Hill: University of North Carolina Press, 1982. Dalton, W. M. The Story of Radio. London: Adam Hilger, 1975 (3 vols.). Danielian, N.R. ATHR TheStory of Industrial Conquest.New York Vanguard, 1939 (reprinted by Arno Press, 1974). Davis, Henry B. Electrical and Electronic Technologies: A Chronology of Events and Inventors. Metuchen, NJ: Scarecrow, 1981-1985 (3 vols.). Davis, Jeffery. Children’s Television, 1947-1990. Jefferson, NC: McFarland, 1995.
Davis, Stephen B. The Law of Radio Communications.New York: McGrawHill, 1927. Day, James. The Vanishing Vision: The Inside Story of Public Television. Berkeley: University of California Press, 1995. De Bruin, Ronald, & Jan Smits. Digital Video Broadcasting: Technology, Standards, and Regulations. Norwood, MA: Artech House, 1999.
Appendix D A Selected Bibliography
891
de Forest, Lee. Father of Radio: The Autobiography of Lee de Forest. Chicago: Wilcoxand Follett, 1950. Delfiner, Henry. Vienna Broadcasts to Slovakia: 2938-2939-A Case Study in Subversion. New York Columbia University Press, 1974. DeLong, Thomas A. The Mighty Music Box: The Golden Age of Musical Radio. Los Angeles: Amber Crest,1980. . Quiz Craze: America’s Infatuation with Game Shows. New York Praeger, 1991. Desmond, Robert W. World News Reporting. Iowa City: University of Iowa vols.). Press, 1978-1984 (4 DeSoto, Clinton B. Two Hundred Meters and Down: The Story of Amateur Radio. West Hartford, CT American Radio Relay League,1936. Diamant, Lincoln. Television’s Classic Commercials: The Golden Years, 2948-2958. New York Hastings House, 1971. Diamond, Edwin, & Stephen Bates. The Spot: The Rise of Political Advertising on Television. 3rd ed. Cambridge, MA: MIT Press, 1992. Dibner, Bern. The AtkznticCable. New York Blaisdell, 1964. Dill, Clarence C. Radio Law: Practice, Procedure. Washington, DC: National Law Book Company, 1938. Dinsdale, A.A. First Principles of Television. New York: Wiley, 1932 (reprinted by Arno Press, 1971). Dizard, Wilson P. Television: A World View Syracuse, N y . Syracuse University Press, 1966. Donovan, RobertJ,, 81 Ray Scherer. Unsilent Revolution: Television News and American Public Life. New York: Cambridge University Press, 1991. Douglas, Susan J. Inventing American Broadcasting 2899-2 922. Baltimore: Johns Hopkins University Press, 1987. .Listening In: Radio and the American Imagination. New York Times Books, 1999. Dreyer, Carl. Sarnoff: An American Success. New York: Quadrangle, 1977. Dryer, Sherman H. Radio in Wartime. New York: Greenberg, 1942. Dummer, G. W. A. Electronic Inventions and Discoveries: Electronics from its Earliest Beginnings to the Present Day. 4th ed. Bristol, England: Institute of Physics, 1997. Dunham, Corydon B. Fighting for theFirst Amendment: Stantonof CBS vs. Congress and the Nixon WhiteHouse. Westport, C T Praeger, 1997. Dunlap, Orrin E., Jr. Radio in Advertising. New York Harper, 1931. . The Outlook for Television. New York Harper, 1932 (reprinted by Arno Press, 1971).
892
Appendix D A Selected Bibliography
. Marconi: The Man and His Wireless. New York Macmillan, 1937 (reprinted by Arno Press, 1971). . The Future of Television. New York: Harper, 1942, 1947. . Radio’s 100 Men of Science: Biographical Narratives of Pathfinders in Electronics and Television. New York: Harper, 1944 (reprinted by Books for Libraries, 1970). Communications in Space: From Marconi to Man on the Moon. 3rd ed. New York Harper & Row, 1970. Dunning, John. On theAir: The Encyclopedia of Old-?limeRadio. New York Oxford University Press,1998. Dupagne, Michel, & Peter B. Seel. High-Definition Television: A Global Perspective. Ames: Iowa State University Press, 1998. Dupuy, Judy. Television Show Business. Schenectady, Ny: General Electric,
.
1945.
Duus, Masayo. Tokyo Rose: Orphan of the Pacific. Tokyo: Kodansha, 1979. Dygert, Warren B. Radio as an Advertising Medium. New York: McGrawHill, 1939. Eastman, Susan Tyler, & Ferguson, Douglas A. BroadcastKable Programming: Strategies and Practices. 5th ed. Belmont, CA: Wadsworth, 1997.
Eberly, Philip K. Music in the Air: America’s Changing Tastes in Popular Music, 1920-1 980. New York: Hastings House, 1982. Eckhardt, GeorgeH. Electronic Television. Chicago: Goodheart-Willcox, 1936 (reprinted by Arno Press, 1974). Eddy, William C. Television: The Eyes of Tomorrow. New York: PrenticeHall, 1945. Edelman, Murray. The Licensing of Radio Services in the United States, 1927-1 947: A Study in Administrative Formulation of Policy Illinois Studies in the Social Sciences, (Vol. 31). Urbana: University of Illinois Press, 1950 (reprinted by Arno Press, 1979). Edmonson, Madeleine, & David Rounds.From Mary Noble to Mary Hartman: The Complete Soap Opera Book. New York Jove/HBJ, 1977 [a paperback reprint and updating of The Soaps(New York Stein & Day, 1973)l. Education on the Air. Annual proceedings of conference on educational broadcasting. Columbus: Ohio State University, 1930-1953,1959, Educational Broadcasting Review (1967-1973;bimonthly). In earlier years was publishedas NAEB Journal and AERTJournal; for later years, see Public Telecommunications Review. Edwards, John Carver. Berlin Calling:American Broadcasters in Service to the Third Reich. Westport, CT Praeger, 1991.
Appendix D A Selected Bibliography
893
The Eighth Art: 7tventy-Three Views of Television Today. New York: Holt, Rinehart and Winston, 1962. Einstein, Daniel. Special Edition: A Guide to Network Television Documentary Series and Special NewsReports, 1955-1 979. Metuchen, NJ: Scarecrow Press, 1987. Eisner, Joel, & David Krinsky. Television Comedy Series: An Episode Guide to 153 TV Sitcomsin Syndication. Jefferson, NC: McFarland, 1984. Electronic Media. (1981-present, weekly). Very useful re: programming. Eliot, Marc. Televisions: One Season in American Television. New York: St. Martin’s Press, 1983. Elliott, Philip. The Making of a Television Series: A Case Study in the Sociology of Culture. London: Constable, 1972. Elliott, William Y., (Ed.). Television’s Impact on American Culture. East Lansing: Michigan State University Press, 1956. Ely, Melvin Patrick. The Adventuresof Amos In’ Andy: A Social History of an American Phenomenon.New York: Free Press, 1991. Emery, Walter B. National and International Systems of Broadcasting: Their History, Operation and Control. East Lansing: Michigan State University Press,1969. . Broadcasting and Government: Responsibilities and Regulations. 2nd ed.East Lansing: Michigan State University Press, 1971. Engelman, Ralph.Public Radio and Televisionin America: A Political Histov. Thousand Oaks, CA Sage, 1996. Eoyang, Thomas T. An Economic Study of the Radio Industry in the United States of America. New York: Columbia University Press, 1936 (reprinted by Arno Press, 1974). Epstein, Edward Jay. News from Nowhere: Television and the News. New York: Random House, 1973. Erickson, Hal. Syndicated Television: The First Forty Years, 1947-1987. Jefferson, NC: McFarland, 1989. Ettlinger, Harold. The Axis on the Air. Indianapolis, IN:Bobbs-Merrill, 1943. European Audiovisual Observatory. Statistical Yearbook: Film, Television, Video and NewMedia in Europe. Strasbourg, France: EAO, 1994-present, annual. Everson, George. The Story of Television: The Life of Philo T. Farnsworth. New York Norton, 1949 (reprinted by Arno Press, 1974). Ewen, Stuart. Captains of Consciousness: Advertising andthe Social Roots of the Consumer Culture. New York: McGraw-Hill, 1976. Ewen, Stuart, & Elizabeth Ewen. Channels of Desire: MQSSImages and the Shaping of American Consciousness.New York: McGraw-Hill, 1982.
894
Appendix D A Selected Bibliography
Fabe, Maxene. TV Game Shows. New York: Doubleday,1979. Fahie, J. J. A History of Electric Telegraphy to theYear 1837.London: Spon, 1884 (reprinted by Arno Press, 1974). . A History of Wireless Telegraphy 2nd ed. Edinburgh: Blackwood, 1901 (reprintedby Arno Press, 1971). Fang, Irving E. Those Radio Commentators! Ames: Iowa State University Press, 1977. . A History of Mass Communication: Six Information Revolutions. Newton, M A : Focal Press, 1997. Farnsworth, Elma G. Distant Vision: Romance andDiscovery on An Invisible Frontier-Philo T. Farnsworth, Inventor of Television. Salt Lake City,UT: PemberlyKent, 1990. Fates, Gil. What’s My Line? The Inside Story of TV’s Most Famous Panel Show. Englewood Cliffs, NJ:Prentice-Hall, 1978. Faulk, JohnHenry. Fear on Trial. New York: Simon and Schuster, 1964. Federal Communications Commission. Annual Report. Washington, DC: GPO, 1935-present (1935-1956 reports reprinted by Arno Press, 1971). Reports (1935-1986). Washington: GPO (official texts of decisions, reports, and orders). Replaced in 1987 by Federal Communications Commission Record (biweekly). . Engineering Department. Report on Social and EconomicData Pursuant to the Informal Hearing on Broadcasting. Washington, DC: GPO, 1938 (reprinted by Arno Press, 1974). . Investigation of the Telephone Industry in the United States. US. House of Representatives Document 340, 76th Cong., 1st Sess., 1939 (reprinted by Arno Press, 1974). . Report on ChainBroadcasting. Washington, DC: GPO, 1941 (reprinted by Arno Press, 1974). . Public Service Responsibility of Broadcast Licensees. Washington: GPO, 1946 (most of the text was reprinted in Kahn,Frank J., below, and fully reprinted by Arno Press, 1974). (The “Blue Book”). . A n Economic Study of Standard Broadcasting. Washington, DC: FCC Mimeo, 1947 (reprinted by Arno Press, 1974). . The Children’s Television Task Force. Television Programming for Children. Washington: FCC, 1979 (5 vols.). . Network Inquiry Special Staff. New Television Networks: Entry, Jurisdiction, Ownership.Washington: GPO, 1980 (2 vols.). Office of Network Study. Network Broadcasting. U.S. House of Representatives Report 1297, 85th Cong., 2nd Sess., 1958. . Office of Network Study. Television Network Program Procurement. US. House of Representatives Report 281, 88th Cong., 1st Sess., 1963.
.
.
Appendix D A Selected Bibliography
895
.
Office of Network Study. Television Network Program Procurement, Part II. Washington: GPO, 1965. Federal Communications Law Journal(1937-present, thrice yearly). Legal and scholarly articles, mainly on broadcast regulation. (Note: Was Federal Communications BarJournaluntil 1977.) Federal Radio Commission. Annual Report. Washington, DC: GPO, 1927-1933 (reprinted by Arno Press, 1971). . Commercial Radio Advertising, U.S. Senate Document 137, 72nd Cong., 1st Sess., 1932 (reprinted by Arno Press, 1974). Federal Trade Commission. Report on theRadio Industry.Washington, DC: GPO, 1924 (reprinted by Arno Press, 1974). .StaffReport onTelevision Advertising to Children. Washington: FTC, 1978.
Fejes, Fred. Imperialism, Media, andthe Good Neighbor: New Deal Foreign Policy and United States Shortwave Broadcasting to Latin America. Norwood, NJ: Ablex, 1986. Felix, Edgar. Using Radio in Sales Promotion. New York: McGraw-Hill, 1927.
Television: Its Methods and Uses. New York McGraw-Hill, 1931. Fensch, Thomas, (Ed.). Television News Anchors: An Anthology of Profiles of the Major Figures and Issues in United States Network Reporting. Jefferson, NC: McFarland, 1993. Ferris, Charles, et al. Cable Television Law: A Video CommunicationsPractice Guide. Albany, Ny: Matthew Bender, 1983-present, title has varied (updated twicea year, 4 vols.). Fessenden, Helen. Fessenden: Builder of Tomorrows. New York CowardMcCann, 1940 (reprinted by Arno Press with a new index,1974). Fifty Years of A.R.R.L. Newington, CT: American Radio Relay League,1965. The First 50 Years of Broadcasting. Washington, DC: Broadcasting Publications, 1982. Fink, Donald G. Television Standards and Practice: Selected Papers of the Papers of the National Television System Committee and Its Panels. New York McGraw-Hill, 1943. Fischer, Stuart. Kids’ TV: TheFirst 25 Years. New York Facts on File,1983. Fisher, David E., & Marshall John Fisher. n b e : The Invention of Television. Washington: Counterpoint, 1996. Flannery, Gerald, (Ed.). Commissioners of the FCC: 1927-2994. Lanham, MD: University Press of America, 1995. Fleming, John A. The Principles of Electric Wave Telegraphy. London: Longmans, Green, 1906,1910,1916, and1919. (First two editions are most detailed in their historicaltreatment.) ,
896
Appendix D A Selected Bibliography
Fong-Torres, Ben. The Hits Just Keep on Coming: The History of Top 40 Radio. San Francisco: Miller-Freeman, 1998. Foote, Joe S., (Ed.). Live from the Trenches: The Changing Role of the TelevisionNewsCorrespondent. Carbondale: SouthernIllinoisUniversity Press, 1998. Foust, James C. Big Voices ofthe Air: TheBattle over Clear Channel Radio. Ames: Iowa State University Press, 2000. Fowler, Gene, & Bill Crawford. Border Radio. Austin: Texas Monthly Press, 1987.
Fox, Stephen. The Mirror Makers: A History of American Advertising and Its Creators. New York Morrow, 1984. Frank, Reuven. Out of Thin Air: The Brief Wonderful Life of Network News. New York: Simon & Schuster, 1991. Frank, Ronald E., & Marshall G. Greenberg. The Public’s Use of Television. Beverly Hills, CA: Sage, 1980. Frank, Ronald, & Marshall G. Greenberg. Audiences forPublic Television. Beverly Hills, CA: Sage, 1982. Frankl, Razelle. Televangelism: The Marketing of Popular Religion. Carbondale: Southern Illinois University Press, 1986. Franklin, Marc A., et al. Cases and Materials on Mass Media Law. 6th ed. NY Foundation Press, 2000. Friendly, Fred. Due to Circumstances Beyond Our Control. . . New York: Random House, 1976. Frost, S. E., Jr. Education’s Own Stations. Chicago: University of Chicago Press, 1937a (reprinted by Arno Press, 1971). . Is American Radio Democratic? Chicago: University of Chicago Press, 1937b.
.
Ganley, Gladys D., & Oswald H. Ganley. Global Political Fallout: The VCR’s First Decade. Norwood, NJ: Ablex, 1987. Garay, Ronald. Congressional Television: A Legislative History. Westport, CT Greenwood, 1984. . Cable Television: A Reference Guide to Information. Westport, CT Greenwood, 1988. . Gordon McLendon: The Maverick of Radio. Westport, CT Greenwood Press, 1992. Garner, Joe. We Interrupt This Broadcast. Naperville, IL: Sourcebooks, 1998. (Includes 2 audio CD recordings.) Gates, Gary Paul. Air Time: The Inside Story of CBS News. New York: Harper, 1978.
Appendix D A Selected Bibliography
897
Gerani, Gary, with Paul H. Schulman. Fantastic Television. New York: Harmony, 1977. Gerrold, David. The World of Star n e k . New York Ballantine, 1973. Gianakos, Larry James. Television Drama Series Programming: A Comprehensive Chronicle. Metuchen, NJ: Scarecrow, 1978-1987 (5vols., covering 1947-1984).
Gibson, George H. Public Broadcasting: The Role of the Federal Government, 2922-2976. New York: Praeger, 1977. Gilbert, Robert E. Television and Presidential Politics. North Quincy, MA: Christopher Publishing, 1972. Gitlin, Todd. Inside Prime Time. New York: Pantheon, 1983. Glander, Timothy. Origins of Mass Communications Research During the American Cold War: Educational Effects and Contemporary Implications. Mahwah, NJ: Lawrence Erlbaum Associates, 2000. Glick, IraO., & Sidney J. Levy. Living with Television. Chicago: Aldine, 1962. Glut, Donald F, & Jim Harmon. The Great Television Heroes. New York Doubleday, 1975. Godfrey, Donald G. “CFCF: The Forgotten First,” Canadian Journalof Communication, 8:4:56-71 (September 1982). Reruns onFile: A Guide to Electronic Media Archives. Hillsdale, NJ: Lawrence Erlbaum Associates, 1992. . The Father of Television: Philo T. Farnsworth. Salt Lake City: University of Utah Press, 2001. . & Frederic A. Leigh, (Eds.). Historical Dictionary of American Radio. Westport, CT Greenwood, 1998. Godfried, Nathan. WCFL, Chicago’sVoice of Labor, 1926-78. Urbana: University of Illinois Press, 1997. Goldberg, Lee.Television Series Revivals, Sequelsor Remakes of Cancelled Shows. Jefferson, NC: McFarland, 1993. Goldberg, Robert, & Gerald Jay Goldberg. Anchors: Brokaw, Jennings, Rather and the Evening News. New York: Birch Lane, 1990. . Citizen llzrner: The Wild Rise of an American 7jmoon. New York: Harcourt Brace, 1995. Goldmark, Peter C.Maverick Inventor: My llzrbulent Years at CBS. New York: Saturday Review Press, 1973. Goldenson, Leonard H. Beating the Odds: The Untold Story Behindthe Rise of ABC C . . .l. New York: Scribner’s, 1991. Goldsmith, Alfred N., & Austin C. Lescarboura. This Thing Called Broadcasting. New York: Holt, 1930.
.
898
Appendix D A Selected Bibliography
Goldstein, Fred, & Stan Goldstein. Prime-Zlme Television: A Pictorial Historyfrom Milton Berle to “FalconCrest. ’’New York: Crown, 1977. Graham, Margaret B. W. RCA andthe VideoDisc: The Businessof Research. New York: Cambridge, 1986. Gramling, Oliver. AP: The Story oflvews. New York Farrar & Rinehart, 1940 (reprinted by Greenwood, 1969). Grandin, Thomas. The Political Use of the Radio. Geneva, Switzerland: Geneva Research Centre (StudiesX3), 1939 [reprinted by Arno Press, 1971). Grant, August, (Ed.). Communication Technology Update. Newton, MA: Focal Press, 1991-2000,annual. Green, Timothy. The Universal Eye: The World of Television. New York: Stein andDay, 1972. Greenberger, Martin, (Ed.). Electronic Publishing Plus: Media for Q Technological Future. White Plains, NY: Knowledge Industry Publications, 1985. Greenfield, Jeff. Television: The First Fifty Years. New York: Abrams, 1977. Gross, Ben. I Looked and I Listened: Informal Recollections of Radio and TV 2nd ed.New Rochelle, N Y Arlington House, 1970. Gross, Lynne Schafer.The NewTelevision Technologies. 2nd ed. Dubuque, Iowa: Wm. C. Brown, 1986. Guide to Independent Television. London: Independent Television (later Broadcasting) Authority, 1963-1988,annual. (Note: title changed from year to year; Television and Radio was common in 1980s.) Gunther, Marc. The House That Roone Built:The Inside Story ofABC News. Boston: Little, Brown, 1994. Hadden, Jefhey K., & Anson Shupe. Televangelism: Power and Politics on God’s Frontier.New York: Henry Holt, 1988. Halberstam, David. The Powers That Be. New York: Knopf, 1979. Hale, Julian. Radio Power: Propaganda and International Broadcasting. Philadelphia: Temple University Press, 1975. Hall, Jim, Mighty Minutes:An Illustrated History of Television’s Best Commercials. New York Harmony, 1984. Hallin, Daniel C.The “Uncensored War:” The Media and Vietnam. New York: Oxford, 1986. Halper, Donna L. Invisible Stars: A Social History of Women in American Broadcasting. Armonk, Ny: M. E. Shape, 2001. Hammond, Charles M., Jr. The Image Decade: Television Documentazy, 1965-1975. New York: Hastings House, 1981. Hancock, H. E. Wireless at Sea: The First Fifty Years. Chelmsford, England: Marconi International Marine Communication Co., 1950 [reprinted by Arno Press, 1974).
Appendix D ASelected Bibliography
899
Harlow, Alvin F. Old Wires and New Waves: The History of the Telegraph, Telephone, and Wireless. New York Appleton-Century, 1936 (reprinted by Arno Press, 1971). Harmon, Jim. The Great Radio Heroes. Garden City, Ny: Doubleday, 1967; Jefferson, NC: McFarland, 2001 (rev. ed.). . The Great Radio Comedians.Garden City, W. Doubleday, 1970. Harris, Jay S. TV Guide: The First 25 Years. New York: Simon andSchuster, 1978.
Harris, Paul. When Pirates Ruled the Waves. Aberdeen, Scotland: Impulse Press, 1970. Hawes, William. American Television Drama: The Experimental Years. University: University of Alabama Press, 1986. Hawks, Ellison. Pioneers of Wireless. London: Methuen, 1927 (reprinted by Arno Press, 1974). Hawver, Walt. Capital CitieslABC: The Early Years, 1954-1 986. Radnor, PA: Chilton. 1994. Head, Sydney W. World Broadcasting Systems: A Comparative Analysis. Belmont, CA: Wadsworth, 1985. Head, Sydney W., (Ed.). Broadcasting in Africa: A Continental Surveyof Radio and Television. Philadelphia: Temple University Press, 1974. Head, SydneyW., & Christopher H. Sterling, et al. Broadcastingin America: A Survey of Electronic Media. Boston: Houghton Mifflin, 1956,1972,1976, 1982,1987,1990,1994,1998.(Head was sole author until 1982;subtitle has varied.) Hecht, Jeff. City of light: TheStory of Fiber Optics. New York: Oxford University Press, 1999. Heeter, Carrie, & Bradley S. Greenberg. Cableviewing. Norwood, NJ: Ablex, 1988.
Heighton, Elizabeth, & Don R. Cunningham. Advertising in the Broadcast Media. Belmont, CA: Wadsworth, 1976,1984 (2nd ed.). Heldenfels, R. D. Television’s Greatest Year: 2954. New York Continuum, 1994.
Henck, Fred W., & Bernard Strassburg. A Slippery Slope: TheLong Road to the Breakup ofATbT. Westport, CT: Greenwood, 1988. Henson, Robert. Television Weathercasting: A History. Jefferson, NC: McFarland, 1990. Herring, James M., & Gerald C. Gross. Telecommunications: Economics and Regulation. New York: McGraw-Hill, 1936 (reprinted by Arno Press, 1974).
Hettinger, Herman S. A Decade ofRadio Advertising. Chicago: University of Chicago Press, 1933 (reprinted by Arno Press, 1971).
900
Appendix D A Selected Bibliography
Hettinger, Herman S., & Walter J. Neff. Practical Radio Advertising. New York: Prentice-Hall, 1938. Hickman, Tom. What Did you Do in the War, Auntie? The BBC at War, 2939-45.London: BBC, 1995. Hijiya, James A. Lee de Forest and the Fatherhood ofRadio. Bethlehem, PA: Lehigh University Press, 1992. Hill, Harold. NAEB History, 2925-2954. 2nd ed. Washington, DC: NAEB, 1965. (For continuation, seeAlford, W. Wayne.) Hilliard, Robert L., & Michael C. Keith. The Broadcast Century:A Biography ofAmerican Broadcasting. 2nd ed. Boston: FocalPress, 1997; 2001 (3rd ed.). . Waves of Rancor: 7hning in the Radical Right. Armonk, Ny: M. E. Sharpe, 1999. . The Hidden Screen: Low-Power Television in America. Annonk, NY M. E. Sharpe, 1999. Himmelweit, Hilde T., A. N. Oppenheim, & Pamela Vince. Television and the Child. New York: OxfordUniversity Press, 1958. Historical Journal of Film, Radio 6 Television. (1980-present, quarterly). International journal with primary focus on visualmedia. Hogben, Lancelot. From Cave Painting to Comic Strip: A Kaleidoscope of Human Communication.New York: Chanticleer Press, 1949. Horsfield, Peter G. Religious Television: The American Experience. New York: Longman, 1984. Hosley, David H. A s Good as Any: Foreign Correspondence on American Radio, 2930-2940. Westport, C T Greenwood, 1984. Howe, Russell Warren, The Huntfor “Tokyo Rose.” Lanham, MD: Madison Books, 1990. Howeth, L. S. History of Communications-Electronics in the United States Navy. Washington: GPO, 1963. Hubbell, Richard W. 4000 Years of Television: The Story of Seeing at a Distance. New York: Putnam, 1942. Hudson, Robert V. Mass Media: A Chronological Encyclopedia of Television, Radio, Motion Pictures, Magazines, Newspapers, and Books in the United States. New York Garland, 1987. Hunt, Darnel1 M. 0.J. Simpson Facts and Fictions: News Ritualsin the Construction ofRea1iw. New York: Cambridge University Press, 1999. Husing, Ted. Ten Years Before the Mike. New York Farrar & Rinehart, 1935. Hutchinson, Thomas H.Here Is Television: Your Window to the World. New York: Hastings House, 1946,1948,1950. Huth, Arno. Radio Today: The Present State of Broadcasting. Geneva, Switzerland: Geneva Research Centre (Studies XII:6), 1942 (reprinted by Arno Press, 1971).
Appendix D A Selected Bibliography
901
Independent Thinking:An Overview of the IndependentTelevision Industry. Washington: Frazier Gross & Kadlec Inc., 1986. Inge, M.Thomas, (Ed.). Handbook ofAmerican Popular Culture.Westport, CT Greenwood, 1979-1981 (3 vols., each with extensive bibliographies). Instant World:A Report on Telecommunications in Canada. Ottawa: Information Canada, 1971. Taker, Bill, Frank Sulek, & Peter Kanze. The Airwaves of New York: Illustrated Histories of 156 AM Stations in the Metropolitan Area. Jefferson, NC: McFarland, 1998. Jarvik, Lawrence A. Masterpiece Theatre and the Politics of Qualiv. Lanham, Md: Scarecrow Press, 1999. Jensen, Peter R. Early Radio: In Marconi’s Footsteps, 1894-2920. Kenthurst, Australia: Kangaroo Press, 1994. Johnson, Katherine E., (Ed.). TV Guide 25 Year Index. Radnor, Pa.: Triangle, 1979. Johnson, Nicholas. How to Talk Back to Your Television Set. Boston: Little, Brown, 1970. Johnson, William 0.Super Spectator andthe Electric Lilliputians. Boston: Little, Brown, 1971. Jolly, W.P. Marconi. New York: Stein & Day, 1972. Tome, Hiram L. Economics ofthe Radio Industry.Chicago: A. W. Shaw, 1925 (reprinted byArno Press, 1971). Journal of Broadcasting (1956-present, quarterly; added and Electronic Media to title effective with vol. 29 in 1985). Major source of scholarly research and reference on radio and television; many historical research articles and bibliographies, 15 reprinted in Lichty and Topping (see below). “A Bibliography of Historical Articles Published in the Journal of Broadcasting 1956-1982” (by J. M. Kittross) was published in Historical Journal ofFilm Radio and Television, 4:1:90-96 (1984). A 25-year index was issued in spring 1982; more recent indices on CD-ROM. Journal ofLaw and Economics (1958-present, now twice yearly). Has published important articles on FCC, IRAC, media economics. Journal ofRadio Studies (1992-1998, annual; 1998-present, twice a year). Journalism History(1973-present, quarterly). Journalism Quarterly (1924-present, quarterly). Title has varied. General mass communications research. Cumulative indexes occasionally published. Jung, Donald J. The Federal Communications Commission, the Broadcast Industry, and the Fairness Doctrine, 1981-2987. Lanham, MD: University Press of America, 1996.
902
Appendix D A Selected Bibliography
Kahn, Frank J., (Ed.). Documents of American Broadcasting. (4th ed.). New York: Appleton-Century-Crofts, 1984. (Earlier editions also are useful.) Kaltenborn, H. V. IBroadcast the Crisis. New York Random House, 1938. . Fifty Fabulous Years: 1900-1950. New York: Putnam, 1950. Kamen, Ira. Questions and Answers about PQY-TV Indianapolis: Howard W. Sams, 1973. Katz, Elihu, & George Wedell. Broadcasting in the Third World; Promise and Performance. Cambridge, MA: Harvard University Press, 1977. Keating, Stephen. Cutthroat: High Stakes and Killer Moves on the Electronic Frontier. Boulder, CO: Johnson Books, 1999. Keith, Michael C. Signals in the Air: NativeBroadcasting in America. Westport, C T Praeger, 1995. . Voices in the Purple Haze: Underground Radio and the Sixties. Westport, C T Praeger, 1997. . Talking Radio: An Oral History of American Radioin the Television Age. Armonk, Ny: M. E. Sharpe, 2000. Kempner, Stanley. Television Encyclopedia. New York: Fairchild, 1948. Chronology, pp. 3-42. Kendrick, Alexander. Prime Time: The Life of Edward R. Murrow. Boston: Little, Brown, 1969. Kiernan, Thomas. Citizen Murdoch.New York: Dodd, Mead, 1986. King, W. James. The Development of Electrical Technology in the 19th Century: The Telegraph and the Telephone. Washington: US. National Museum (Bulletin 228), 1962 (reprinted by Arno Press, 1977). Kirby, Edward M., & Jack W. Harris. Star-Spangled Radio. Chicago: ZiffDavis, 1948. Kisseloff, Jeff. The Box: An Oral History of Television, 1920-1961. New York: Viking, 1995. Kitboss, JohnM., (Ed.), Documents in American Telecommunications Policy. New York Arno Press, 1977 (2 vols.). Kittross, John Michael. TelevisionFrequencyAllocationPolicy in the United States. New York: Arno Press, 1979 (reprinting a 1960 University of Illinois dissertation: contains “Afterthoughts and Second Guesses.”). , (Ed.). Administration of American Telecommunications Policy. New York: Arno Press, 1980 (2 vols.). Klatell, David A., & Norman Marcus. Sports for Sale: Television, Money, and the Fans. New York: Oxford University Press, 1988. Knightley, Phillip. The First Casualty-From the Crimea to Vietnam: The War Correspondent QS Hero, Propagandist, and M p h Maker. New York: Harcourt Brace Jovanovich, 1975.
Appendix D A Selected Bibliography
903
Koch, Howard. The Panic Broadcast: Portrait of an Event. Boston: Little Brown, 1970. Koenig, Allen E., & Ruane B. Hill, (Eds.). The Farther Vision: Educational Television Today. Madison: University of Wisconsin Press, 1967. Krasnow, Erwin G., & Lawrence D. Longley. The Politics of Broadcast Regulation. New York: St. Martin’s Press, 1973,1978,1982. (With Herbert Terry for 3rd ed.) Krattenmaker, Thomas G., & Lucas Powe. Regulating Broadcast Programming. Cambridge: MIT Press, 1994. Kraus, Sidney, (Ed,). The Great Debates: Background, Perspectives, Effects. Bloomington: Indiana University Press, 1962. . The Great Debates: Carter vs. Ford 1976. Bloomington: Indiana University Press, 1979. Kris, Ernst, & Hans Speier. German Radio Propaganda: Reports on Home Broadcasts During the War. London: Oxford University Press, 1944. Lacy, Dan. FromGrunts to Gigabytes: CommunicationsandSociety. Urbana: University of Illinois Press, 1996. LaGuardia, Robert. Soap World. New York: Arbor House, 1983. Land, Jeff. Active Radio: Pacifica’s Brash Experiment. St. Paul: University of Minnesota Press, 1999. Landry, Robert J. This Fascinating Radio Business.Indianapolis, IN:BobbsMerrill, 1946. Lang, Gladys Engel, & Kurt Lang. The Battle for Public Opinion: The President, thePress, and the Polls During Watergate. New York: Columbia University Press, 1983. . Politics and Television Re-Viewed. Beverly Hills, Calif.: SagePublications, 1984. Lardner, James. Fast Forward:Hollywood, the Japanese,and the VCR Wars. New York: W.W. Norton, 1987. Lashner, Marilyn A. The Chilling Effect in TV News: Intimidation by the Nixon WhiteHouse. New York Praeger, 1984. Law and ContemporaryProblems (1933-present, quarterly). Journal of the School of Law, Duke University. See, especially, “Radio and Television’’ (224,1957, and 23:1,1958)and “Communications,”(34:34,1969). Lazar, Matthew.Pacifica Radio: The Rise of an Alternative Network. Philadelphia: Temple University Press, 1999. Lazarsfeld, Paul F. Radio and the Printed Page. New York: Duell, Sloan & Pearce, 1940 (reprinted by Arno Press, 1971). Lazarsfeld, Paul F, & Harry N. Field. The People Look at Radio.Chapel Hill: University of North Carolina Press, 1946 (reprinted by Arno Press, 1975).
904
Appendix D A Selected Bibliography
Lazarsfeld, Paul F, & Patricia L. Kendall. Radio Listening in America: The People Look at Radio-Again. New York: Prentice-Hall, 1948. Lazarsfeld, Paul F, & Frank N. Stanton, (Eds.). Radio Research 1941. New York: Duell, Sloan & Pearce, 1941. . Radio Research 1942-1 943. New York Duell, Sloan & Pearce, 1944. Communications Research 1948-1949. New York Harper, 1949. Lean, Tangye. Voices in the Darkness: The European Radio War. London: Secker and Warburg, 1943. Leapman, Michael. Barefaced Cheek. London: Hodder & Stoughton, 1983. (A biography of Rupert Murdoch.) Lebow, Irwin. Information Highways and BJWQYS: Fromthe Telegraph to the 21st Century. New York: IEEE Press, 1995. Le Duc, Don R. Cable Television and the FCC: A Crisis in Media Control. Philadelphia: Temple University Press, 1973. . Beyond Broadcasting: Patterns in Policy and LQW New York: Longman, 1987. Lee, AlfredM. The Daily Newspaper in America. New York Macmillan, 1937. Leinwoll, Stanley. From Spark to Satellite: A History of Radio Communication. New York Charles Scribner’s Sons, 1979. Lent, John A., (Ed.). Broadcasting in Asia and the Pacific: A Continental Survey of Radio and Television. Philadelphia: Temple University Press,
.
1978.
Lessing, Lawrence. Man of HighFidelity:ErwinHowardArmstrong. Philadelphia: Lippincott, 1956 (revised edition, Bantam Books, 1969). Levin, Harvey J. Broadcast Regulation and Joint Ownershipof Media. New York: New York University Press, 1960. The Invisible Resource: Use andRegulation of the Radio Spectrum. Baltimore: Johns Hopkins Press, 1971. . Fact and Fancy in Television Regulation: An Economic Study of Policy Alternatives. New York: Russell Sage Foundation, 1980. Levin, Murray B. Talk Radio and the American Dream. Lexington, MA: Lexington Books, 1987. Lewis, C.A. Broadcastingfrom Within.London: George Newnes, 1924. Lewis, Tom. Empire of the Air: The Men Who Made Radio. New York: Harper Collins, 1991. Lichty, Lawrence W., & Malachi C. Topping, (Eds.). American Broadcasting: A Source Book on theHistory.of Radio andTelevision. New York Hastings House, 1975. Lingel, Robert.Educational Broadcasting: A Bibliography. Chicago: University of Chicago Press, 1932.
.
Appendix D A Selected Bibliography
905
Lipschultz, Jeremy H. Broadcast Indecency: FCC Regulation and the First Amendment. Newton, MA: Focal Press, 1996. Lodge, Oliver J, Signalling through Space withoutWires: The Work of Hertz and His Successors.(3rd ed.) New York: Van Nostrand, 1900 (reprinted by Arno Press, 1974). Lohr, Lenox. Television Broadcasting: Production, Economics, Technique. New York: McGraw-Hill, 1940. Looker, Thomas. The Sound and the Story: NPR and the Art of Radio. Boston: Houghton Mifflin, 1995. Lowery, Shearon, & Melvin L. DeFleur. Milestones in MQSS Communication Research. 3rd ed. New York Longman, 1995. Luke, Carmen. Constructing the Child Viewer: A History of the American Discourse on Television and Children, 1950-1980. Westport, Cl? Praeger, 1991.
Lumley, Frederick. Measurement in Radio. Columbus: Ohio State University Press, 1934 (reprinted by Arno Press, 1971). Mabee, Carleton. The American Leonardo: A Life of Samuel l? B. Morse. New York Knopf, 1943 (reprinted by Octagon Books,1969). MacDonald, J. Fred. Don’t Touch That Dial! Radio Programming in American Life from 1920-1960. Chicago: Nelson-Hall, 1979. . Blacks and White TV: Afro-Americans in Television since 1948. Chicago: Nelson-Hall, 1983. . Television and the Red Menace: The Video Road to Vietnam.New York: Praeger, 1985. . Who Shot theS h e r i p The Rise and Fall of the Television Western. New York: Praeger, 1987. . One Nation UnderTelevision: The Rise and Decline of Network TI? New York: Pantheon, 1990. MacFarland, David T. Future Radio Programming Strategies: Cultivating Listenership in the Digital Age. Mahwah, NJ: Lawrence Erlbaum Associates, 1997.
Maclaurin, W. Rupert. Invention and Innovationin the Radio Industry. New York Macmillan, 1949 (reprinted by Arno Press, 1971). MacNeil, Robert. The People Machine: The Influence of Television on American Politics. New York: Harper & Row, 1968. Macy, John, Jr. To IrrigateQ Wasteland: The Struggle to ShapeQ Public Television Systemin the United States. Berkeley: University of California Press, 1974.
Maddox, Brenda. Beyond Babel: New Directions in Communications. New York: Simon & Schuster, 1972.
906
Appendix D A Selected Bibliography
Madsen, Axel. 60 Minutes: The Power & The Politics of America’s Popular TV News Show. New York Dodd, Mead, 1984. Maine, Basil. The B.B.C. and Its Audience. London: Thomas Nelson, 1939. Mair, George.Inside HBO: The Billion Dollar WarBetween HBO, Hollywood and the Home VideoRevolution. New York: Dodd, Mead, 1988. Marconi, Degna. My Father, Marconi. New York: McGraw-Hill, 1962. Marcus, Norman. Broadcast and Cable Management. Englewood Cliffs, NJ: Prentice-Hall, 1986. Marcus, Sheldon. Father Coughlin: The lkmultuousLife of the Priest of the Little Flower. Boston: Little, Brown, 1973. Marill, Alvin H. Movies Made for Television: The Telefeature and the MiniSeries, 1964-1 984. New York: New York Zoetrope, 1984. Marland, E. A. Early Electrical Communication. London: Abelard-Schuman, 1964.
Marling, Karal Ann. A s Seen on TV: The Visual Culture of Everyday Life in the 1950s.Cambridge, M A : Harvard University Press, 1994. Marschall, Rick. History of Television. New York: Gallery Books, 1986. Martin, James. The Future of Telecommunications. 2nd ed. Englewood Cliffs, NJ: Prentice-Hall, 1976. Matusow, Barbara. The Evening Stars: The Making of the Network News Anchor. Boston: Houghton Mifflin, 1983. Mayer, Martin. About Television. New York: Harper & Row, 1972. Mayes, Thorn L. Wireless Communication in the United States: The Early Development of American Radio Operating Companies. East Greenwich, RI: New England Wireless and Steam Museum, 1989. McArthur, Tom, & Peter Waddell. The Secret Life of John Logie Baird. London: Century Hutchinson, 1986. McChesney, RobertW. Telecommunications, MQSSMedia, and Democracy: The Battle for the Control of U.S.Broadcasting, 1928-1935. New York: Oxford University Press, 1993. Rich Media, Poor Democracy: Communication Politics in Dubious rimes. Urbana: University of Illinois Press, 1999. McCourt, Tom. Conflicting Communications Interests in America: TheCase of National Public Radio. Westport, CT: Praeger, 1999. McGinniss, Joe. The Selling of the President 1968.New York: nident Press,
.
1969.
McIntyre, Ian. The Expense of Glory: A Life of John Reith. London: HarperCollins, 1993. McMahon, A. Michal. The Making of Q Profession: A Century of Electrical Engineering in America. New York IEEE Press, 1984.
Appendix D A Selected Bibliography
907
McNamee, Graham, in collaboration with Robert Gordon Anderson, You’re On theAir. New York: Harper, 1926. McNeil, Alex. Total Television: A Comprehensive Guide to Programming from 1948 to thePresent. (4thed.) New York: Penguin, 1996. McNeil, Bill, & Morris Wolfe. Signing On: The Birth of Radio in Canada. Toronto: Doubleday Canada, 1982. McNicol, Donald. Radio’s Conquest of Space. New York: Murray Hill Books, 1946 (reprinted by Arno Press, 1974). Meehan, Diana M. Ladies of the Evening: Women Characters of Prime-Time Television. Metuchen, NJ: Scarecrow, 1983. Melton, J. Gordon, Philip Charles Lucas, & Jon R. Stone. Prime-Time Religion: An Encyclopedia of Religious Broadcasting. Phoenix, AZ: Oryx, 1997.
Merton, Robert K.Mass Persuasion: The Social Psychology of a War Bond Drive. New York: Harper 1946 (reprinted by Greenwood, 1971). Metz, Robert. CBS: Reflections in a Bloodshot Eye. Chicago: Playboy Press, 1975.
Meyrowitz, Joshua. No Sense of Place: The Impact of Electronic Media on Social Behavior. New York Oxford University Press, 1985. Michael, Paul, & James R. Parish. The EmmyAwards: A Pictorial History. New York Crown, 1970. Michelis, Anthony. From Semaphore to Satellite. Geneva, Switzerland: International Telecommunication Union, 1965. Mickelson, Sig. From Whistle Stop to SoundBite: Four Decades of Politics and Television. New York: Praeger, 1989. . The Decade That Shaped Television News: CBS in the 1950s.Westport, CT Praeger, 1998. Midgley, Ned. The Advertising and Business Side of Radio. New York: Prentice-Hall, 1948. Milam, Lorenzo. Sex and Broadcasting: A Handbook on Starting a Radio Station for the Communiq. 3rd ed. Los Gatos, CA: Dildo Press, 1975 (reprinted by MHO and MHO Works, 1988). Miller, Merle, & Evan Rhodes. Only You,Dick Daring! Or, How toWrite One Television Script andMake $50,000,000. A lkue-Life Adventure.New York: William Sloane Associates, 1964. Minow, Newton N., et al. Presidential Television. New York Basic Books, 1973.
Mitz, Rick. The Great TV Sitcom Book. New York Richard Marek, 1980. Morreale, Joanne. The Presidential Campaign Film: A Critical History. Westport, C T Praeger, 1993.
908
Appendix D A Selected Bibliography
Morris, Joe Alex. Deadline Every Minute: The Story of the United Press. Garden City, NY Doubleday, 1957. Moseley, Sydney A. John Baird: The Romanceand flagedy of the Pioneer of Television. London: Odhams, 1952. Mott, Frank Luther. The Newsin America. Cambridge, MA: Harvard University Press, 1952. American Journalism: A History 1690-1960. 3rd ed. New York: Macmillan, 1962. Murray, Michael, & Donald G. Godfrey, (Eds.). Television in America: Local Station Historyfrom Across the Nation.Ames: IowaState University Press,
.
1997.
Murray, Michael D., (Ed.).Encyclopedia of Television News. Phoenix: Oryx, 1999.
Murrow, Edward R. This Is London. New York: Simon and Schuster, 1941. Murrow, Edward R., & Fred W. Friendly, (Eds.). See It Now. New York: Simon and Schuster, 1955. Nachman, Gerald. Raised on Radio.New York: Pantheon, 1998. National Association of Broadcasters. Broadcasting in the United States. Washington: NAB, 1933. . Broadcasting and the Bill of Rights. Washington: NAB, 1947. National Association of Public Television Stations. Public Television and Radio and State Governments. Washington: NAPTS, 1984 (2 vols.). National Broadcasting Company. The Fourth Chime. New York: NBC, 1944. National Institute of Mental Health. Television and Behavior: Ten Years of Scientific Progress and Implications for the Eighties. Washington: GPO, 1982 (2 vols.). Newcomb, Horace. Television: The Critical View.4th ed. New York: Oxford University Press, 1987. Newcomb, Horace, (Ed.). Encyclopedia of Television. Chicago: FitzroyDearborn, 1977 (3 vols.). NHK (Nippon Hoso Kyokai). The History of Broadcasting in Japan and 50 Years of Japanese Broadcasting. Tokyo: N H K , 1967 and 1977. Nimmo, Dan, & James E. Combs. Nightly Horrors: Crisis Coveragein Television Network News.Knoxville: University of Tennessee Press, 1985. Noam, Eli, (Ed.). Television in Europe. New York Oxford University Press, 1992.
Noll, Roger G., Merton J. Peck, & John McGowan. Economic Aspects of Television Regulation. Washington: Brookings Institution, 1973. Norman, Bruce. Here’s Looking at You: The Story of British Television 1908-1939. London: BBC, 1984.
Appendix D A Selected Bibliography
909
Nye, Russel B. The Unembarrassed Muse: The Popular Arts in America, New York: Dial Press, 1970. O’Dell, Cary.Women Pioneers in Television: Biographies of Fifteen Industry Leaders. Jefferson, NC: McFarland, 1997. O’Hara, J.C., & W. Pricha. Hertz and the Maxwellians: A Study and Documentation of the Discovery of Electromagnetic Wave Radiation, 2873-2894. London: PeterPeregrinus, 1987. Owen, Bruce M. Economics and Freedom of Expression: Media Structure and the First Amendment. Cambridge, M A : Ballinger, 1975. Owen, Bruce M., Jack H. Beebe, & Willard Manning,Jr. TelevisionEconomics. Lexington, MA: Lexington Books, 1974. Owen, Bruce M. The Internet Challenge to Television. Cambridge, M A : Harvard University Press, 1999. Paglin, Max D., (Ed.). A Legislative History of the Communications Act of 2934. New York Oxford University Press, 1989. Paglin, Max D, (Ed.), & Joel Rosenbloom & James R. Hobson, (Co-eds.). The Communications Act: A Legislative History of the Major Amendments, 2934-2996. Silver Spring, MD: Pike & Fischer, 1999. Paley, William S. A s It Happened: A Memoir. New York Doubleday, 1979. Paper, Lewis. Empire: William S. Paley and the Making of CBS. New York: St. Martin’s Press, 1987. Parsons, Patrick R., & Robert M. Frieden. The Cable and Satellite Television Industries. Needham Heights, MA: Allyn & Bacon, 1998. Passman, Arnold. The Deejays. New York: Macmillan, 1971. Paulu, Burton. Radio and Television Broadcasting on the European Continent. Minneapolis: University of Minnesota Press, 1967. . Radio andTelevision Broadcasting in Eastern Europe. Minneapolis: University of Minnesota Press, 1974. Television and Radioin the United Kingdom. Minneapolis: University of Minnesota Press, 1981. (See also the same author’s two earlier studies on the same topicfrom the samepublisher: British Broadcasting [1956], and British Broadcasting in Zlansition [19611.) Pawley, Edward. BBC Engineering: 2922-2972. London: BBC, 1972. Peers, Frank W. The Politics of CanadianBroadcasting: 2920-2952. Toronto: University of Toronto Press, 1969. . The Public Eye; Television and the Politics of Canadian Broadcasting: 2952-2968. Toronto: University of Toronto Press, 1979. Perry, Armstrong. Radio in Education: The Ohio School of Air and Other Experiments. New York: Payne Fund, 1929 (reprinted by Arno Press, 1971).
.
910
Appendix D A Selected Bibliography
Perry, Jeb H. Universal Television: The Studioand Its Programs: 1950-1980. Metuchen, NJ: Scarecrow, 1983. Persico, Joseph E. Edward R. Murrow: An American Original. New York McGraw-Hill, 1988. Peterson, Theodore. Magazines in the 7tventieth Century. 2nd ed. Urbana: University of Illinois Press, 1964. Phillips, Vivian J. Early Radio WaveDetectors. New York Peter Peregrinus, 1980.
Picard, Robert G. The Cable Networks Handbook. Riverside, CA: Carpelan, 1993.
Pitts, Michael R. Radio Soundtracks: A Reference Guide. Metuchen, NJ: Scarecrow Press, 1986. Poindexter, Ray. Golden Throats and Silver Tongues: The Radio Announcers. Conway, A R : River RoadPress, 1978. Pollay, Richard W., (Ed.). Information Sources in Advertising History. Westport, CT: Greenwood, 1979. Poltrack, David F. Television Marketing: Network, Local, Cable. New York: McGraw-Hill, 1983. Pool, Ithiel de Sola, (Ed.). The Social Impact of the Telephone.Cambridge, MA: MIT Press, 1977. . Technologies of Freedom. Cambridge, Mass.: Harvard University Press, 1983. Pope, Daniel. The Making of Modern Advertising.New York: Basic Books, 1983.
Porterfield, John, & Kay Reynolds, (Eds.). We Present Television. New York: W.W. Norton, 1940. Powe, Lucas A., Jr. American Broadcasting and the First Amendment. Berkeley: University of California Press, 1987. Powell, John Walker. Channels of Learning: The Storyof Educational Television. Washington: Public Affairs Press, 1962. Powers, Ron. The Newscasters. New York: St. Martin’s Press, 1977. . Supertube: The Rise of Television Sports. NewYork: Coward, McCann, 1984. Presbrey, Frank. The History and Development of Advertising. New York: Doubleday, Doran, 1929. President’s Communications Policy Board. Telecommunications: A Program for Progress. Washington: GPO,1951. President’s Task Force on Communications Policy. Final Report. Washington: GPO, 1968. Price, Jonathan. The Best Thing on TV: Commercials. New York: Penguin, 1978.
Appendix D A Selected Bibliography
911
Price, Monroe E., (Ed.).The V-ChipDebate: Content Filteringfrom Television to the Internet. Mahwah, NJ: Lawrence Erlbaum Associates, 1998. Prime, Samuel I. The Life of Samuel F. B. Morse. New York Appleton, 1875 (reprinted by Arno Press, 1974). Public Opinion Quarterly (1937-present, quarterly). Scholarly research on public opinion, polls,and media audiences. Public Telecommunications Review (1973-1980, bimonthly). Topical research and comment on public radio-TV. See alsoEducational Broadcasting Review. Quinlan, Sterling. The Hundred Million Dollar Lunch. Chicago: O’Hara,1974. . Inside ABC: American Broadcasting Company’s Rise to Power. New York: Hastings House, 1979. Rader, Benjamin G.In Its Own Image: How Television Has 7kansformed Sports. New York Free Press, 1984. Radio Annual (1937-1964, annual). Trade directory with statistics, information on stations andnetworks, and review of previous year. Radio Broadcast. (1922-1930, monthly). Popular discussion of the industry combined with technical advice for home receiver makers. The Radio Industry: The Story of Its Development. Chicago: A.W. Shaw, 1928 (reprinted by Arno Press, 1974). Radio Regulation. Washington: Pike and Fischer, 1948-present (loose-leaf reporting service of FCC and court decisions). Reed, Robert M,,& Maxine K.Reed. The Encyclopedia of Television, Cable, and Video. New York Van Nostrand Reinhold, 1992. Reid, James D. The Telegraph in America: Its Founders, Promoters and Noted Men. New York: Derby, 1879 (reprinted by Arno Press, 1974). Reid, T. R. The Chip. New York Simon and Schuster, 1984. Reinsch, J. Leonard. Getting Elected: From Radio and Roosevelt to Television and Reagan. New York: Hippocrene, 1991. Rhoads, B. Eric, (Ed.). Blast from the Past: A Pictorial History of Radio’s First 75 Years. West Palm Beach, FL: Steamline Press, 1996. Rhodes, Frederick Leland. Beginnings of Telephony. New York: Harper, 1929 (reprinted by Arno Press, 1974). Ritchie, Michael. Please Stand By: A Prehistory of Television. Woodstock, Ny: Overlook, 1994. Rivkin, Steven R. Cable Television: A Guide to Federal Regulations. Santa Monica, CA: Rand Corp., 1973. Robertson, Jim. Televisionaries. Charlotte Harbor, FL: Tabby House, 1993. Robinson, Michael J., and Austin Ranney, (Eds.). The Mass Media in Campaign ’84. Washington: American Enterprise Institute, 1985.
912
Appendix D ASelected Bibliography
Robinson, Michael, & Margaret Sheehan. Over the Wire and onT V : CBS and UPI in Campaign ’80. New York: Russell Sage Foundation, 1983. Robinson, Thomas Porter. Radio Networks and the Federal Government. New York: Columbia University Press, 1943 (reprinted by Arno Press, 1979).
Rogers, Everett. Communication Technology: The New Media in Society. New York: Free Press, 1986. Rolo, Charles J. Radio Goes to War: The “FourthFront. ” New York Putnam, 1942.
Roper Organization, Inc. Changing Public Attitudes toward Television and Other MQSS Media.New York: Television Information Office, 1959-1989. Title varies; issued approximately every 18 months for a total of 16 published reports. (When theTI0 closed down in 1989,publication of this series was passed to the National Association of Broadcasters.) Rose, Brian G., (Ed.).TVGenres:A Handbook and Reference Guide. Westport, CT Greenwood, 1985. . Television and the Performing Arts: A Handbook and Reference Guide to AmericanCultural Programming. Westport, C T Greenwood, 1986. Rose, Cornelia B., Jr. National Policy for Radio Broadcasting. New York: Harper, 1940 (reprinted by Arno Press, 1971). Rose, Oscar.Radio Broadcasting and Television: A Bibliography New York: H.W. Wilson, 1947. Rosen, Philip T. The Modern Stentors: RadioBroadcasters and the Federal Government, 1920-3934. Westport, C T Greenwood, 1980. Rosewater, Victor. History of Cooperative News-Gathering in the United States. New York: Appleton, 1930 (reprinted by Greenwood, 1970). Rothafel, Samuel L., & Raymond Francis Yates. Broadcasting: Its New Day New York: Century, 1925 (reprinted by Arno Press, 1971). Rowan, Ford. Broadcast Fairness: Doctrine, Practice, Prospects. New York: Longman, 1984. Rowland, Willard. The Politics of TV Violence: Policy Issuesof Communication Research. Beverly Hills, CA: Sage, 1983. Rowman, James W. Cablemania: The Cable Television Sourcebook. Englewood Cliffs, NJ:Prentice-Hall, 1983. Rucker, Bryce W. The First Freedom. Carbondale: Southern Illinois University Press, 1968. Ryan, Milo. History in Sound: A Descriptive Listing of the KIRO-CBS Collection of Broadcasts of the World War II Years and after [. . .l. Seattle: University of Washington Press, 1963. Saettler, Paul. A History of Instructional Technology.New York McGraw-Hill, 1968.
Appendix D A Selected Bibliography
913
Sander, Gordon F. Serling: The Rise and Wlight of Television’s Last Angry Man. New York: Dutton/Penguin, 1992. Sarnoff, David. Network Broadcasting. New York: RCA, 1939. . Looking Ahead: ThePapers of David Sarnoff. New York: McGrawHill, 1968. Scannell, Paddy, & David Cardiff.A Social History of British Broadcasting: Volume 1, 1922-2939, Serving the Nation.Oxford: Blackwell, 1991. Schechter,A. A.,with Edward Anthony.ILive onAir. New York Stokes, 1941. Schemering, Christopher. TheSoap Opera Encyclopedia. New York: Ballantine, 1985. Schmeckebier, Laurence F. The Federal Radio Commission: Its History, Activities and Organization. Washington, DC: Brookings Institution, 1932. Schramm, Wilbur, Jack Lyle, & Edwin B. Parker. Television in the Lives of Our Children.Stanford, CA: Stanford University Press, 1961. Schramm, Wilbur, et al. The People Look at Educational Television. Stanford, CA: Stanford University Press, 1963. Schramm, Wilbur (ed. by Steven H. Chaffee and Everett M. Rogers). The Beginnings of Communication Study in America: A Personal Memoir. Thousand Oaks, CA: Sage, 1997. Schroeder,Richard. Texas Signs On: The Early Daysof Radio and Television. College Station: Texas A&M University Press, 1998. Schubert, Paul. The Electric Word: The Rise of Radio. New York: Macmillan, 1928 (reprinted by Arno Press, 1971). Schwartz, Bernard. The Professor and the Commissions. New York Knopf, 1959. Schwarzlose, Richard A. The Nation’s Newsbrokers. Evanston, IL: Northwestern University Press, 1989, 1990 (2 vols.). Seehafer, Eugene,& J. W. Laemmar. Successful Radioand Television Advertising. New York: McGraw-Hill, 1951, 1959. in the Music Industry: A Histov, 1880-1 991. Jefferson, Segrave, Kerry.PQYO~Q NC: McFarland, 1994. . American Television Abroad: Hollywood’s Attempt to Dominate World Television. Jefferson, NC: McFarland, 1998. Seiden, Martin H. Cable Television USA:An Analysis of Government Policy. New York Praeger, 1972. Sendall, Bernard. Independent Television in Britain: Origin and Foundation, 1946-62. London: Macmillan, 1982. Independent Television in Britain: ExpansionandChange, 1958-68. London: Macmillan, 1983. Sennett, Ted. Your Show of Shows. New York: Collier, 1977. Settel, Irving. A Pictorial History of Radio. 2nd ed. New York Grosset & Dunlap, 1967.
.
914
Appendix D A Selected Bibliography
Settel, Irving, & William Laas. A Pictorial History of Television. New York Grosset & Dunlap, 1969. Sevareid, Eric. Not So Wild A Dream. New York Knopf, 1946 (reprinted by Atheneum, 1976). Shapiro,Mitchell E. Television Network Prime-nme Programming, 2948-2988. Jefferson, NC: McFarland, 1989. Television Network Daytime and Late-Night Programming, 2959-2989. Jefferson, NC: McFarland, 1990. . Television Network Weekend Programming, 2 959-2 990. Jefferson, NC: McFarland, 1992. Shayon, Robert Lewis.‘Television and Our Children. New York Longmans, Green, 1951. Sheldon, H. Horton, & Edgar Norman Grisewood.Television: PresentMethods ofpicture 7hansmission.New YorkVan Nostrand, 1929. Shiers, George, (Ed.).Technical Developmentof Television.New York: Arno Press, 1977. Shiers, George. Early Television: A n Annotated Bibliography to 2940. New York: Garland, 1997. Shirer, William L. Berlin Diary: The Journal of Q Foreign Correspondent 2 934-2 942. New York: Knopf, 1941, . “This isBerlin:” Radio Broadcastsfrom NaziGermany. Woodstock, Ny: Overlook Press, 1999. Shulman, A r t h u r , & Roger Youman.How SweetIt Was: Television-A Pictorial Commentary. New York: Shorecrest, 1966. Shurick E. P. J. The First Quarter-Century of American Broadcasting. Kansas City: Midland, 1946. Siepmann, Charles A. Radio’s Second Chance.Boston: Little, Brown, 1946. . Radio, Television,and Society. New York: OxfordUniversity Press,
.
1950.
Sies, Luther F. Encyclopedia ofAmerican Radio,2920-2960. Jefferson, NC: McFarland, 2000. Simmons, Steven J. The Fairness Doctrine and the Media. Berkeley: University of California Press, 1978. Simpson, Christopher. Science of Coercion: Communication Research b Psychological Warfare, 2 945-2 960. New York: Oxford University Press, 1994.
Singleton, Loy A. Telecommunications in the Information Age. 2nd ed. Cambridge, M A : Ballinger, 1986. Sivowitch, Elliot. “A Technological Survey of Broadcasting’s ‘Pre-History,’ 1876-1920,” Journal ofBroadcasting14:l-20 (Winter 1970-1971). Also in Lichty and Topping.
Appendix D ASelectedBibliography
915
Sklar, Robert. Prime-7Jme America: Life Behind the Television Screen. New York: Oxford University Press, 1980. Skornia, Harry J., & Jack William Kitson. Problems and Controversies in Television and Radio. Palo Alto, CA: Pacific Books,1968. Skutch, Ira. The Days of Live: Television’sGolden Age as Seen by 11 Directors Guild of America Members. Lanham, MD: Scarecrow Press, 1998a. . Five Directors:The Golden Years of Radio. Lanham, MD: Scarecrow Press, 1998b. Slate, Sam J., & Joe Cook. It Sounds Impossible. New York: Macmillan, 1963.
..
Slater, Robert. This. Is CBS: A Chronicle of 60 Years. Englewood Cliffs, NJ: Prentice-Hall, 1988. Slide, Anthony. Great Radio Personalities in Historic Photographs. New York: Dover, 1982. . The Television Industry: A Historical Dictionary. Westport, CT Greenwood, 1991. Slotten, Hugh R. Radio andTelevision Regulation: Broadcasting Technology in the United States, 1920-1960. Baltimore: Johns Hopkins University Press, 2000.
Small, William. To fill a Messenger: Television News and theReal World. New York: Hastings House, 1970. Smart, James R., (Comp.) Radio Broadcasts in the Library of Congress: 1924-1942. Washington: Library of Congress, 1982. Smead, Elmer E. Freedom of Speech by Radio and Television. Washington: Public Affairs Press, 1959. Smith, Anthony. The Shadowin the Cave: The Broadcaster, the Audience, and the State. Urbana: University of Illinois Press, 1973. . The Geopolitics of Information. New York: Oxford University Press, 1980.
. Television:An International History. 2nd ed. Oxford: Oxford Univer-
-
sity Press, 1998. Smith, Delbert D. Communication via Satellite: A Vision in Retrospect, Boston: Sijthoff, 1976. Smith, George David. The Anatomy of a Business Strategy: Bell, Western Electric, and the Origins of the American Telephone Industry. Baltimore: Johns Hopkins University Press, 1985. Smith, Myron J., Jr. U.S. Television Network News: A Guide to Sources in English. Jefferson, NC: McFarland, 1984. Smith, R. Franklin. Edward R. Murrow: The War Years. Kalamazoo, MI: New Issues Press (Western Michigan University), 1978.
916
Appendix D A Selected Bibliography
Smith, Ralph Lee. The Wired Nation: Cable TV-The Electronic Communications Highway New York: Harper & Row, 1972. Smith, Sally Bedell. In All His Glory: The Life of William S. Paley-The Legendary V c o o n and His Brilliant Circle. New York: Simon & Schuster, 1990.
Smith, Wes. The Pied Pipers of Rock ‘n’R011:Radio Deejays of the 50s and 60s.Marietta, GA: Longstreet Press, 1989. SMPTEJournal(1916-present, monthly). Some excellent coverage of video. of American Smulyan,Susan. SellingRadio:TheCommercialization Broadcasting, 2 920-1 934. Washington: Smithsonian Institution Press, 1994.
Smythe, Dallas W. Structure and Policy of Electrical Communications. Urbana: University of Illinois Press, 1957 (reprinted by Arno Press, 1977). Sobel, Robert. RCA. New York Stein & Day, 1986. Socolow, A. Walter. The Law of Radio Broadcasting. New York: Baker, Voorhis, 1939 vols.). (2 Soley, Lawrence C., & John S. Nichols. Clandestine Radio Broadcasting: A Study of Revolutionary and CounterrevolutionaryElectronic Communication. New York: Praeger,1987. Spalding, John W., “1928: Radio Becomes a Mass Advertising Medium,” journal of Broadcasting 8:31-44 (Winter 1963-1964). Also in Lichty and Topping. Sperber, A. M. Murrow: His Life and Times. New York Freundlich Books, 1986.
Spigel, Lynn. Make Room for TV: Television and the Family Ideal in Postwar America. Chicago: University of Chicago Press, 1992. . & Michael Curtin, (Eds.). The Revolution Wasn’t Televised: Sixties Television and Social Conflict. New York: Routledge, 1997. Sponsor (1946-1968, weekly, later monthly). Broadcast advertising trade magazine. See special issues on“40 Year Album of Pioneer Radio Stations” (May 1962);“CBS: Documenting 38 Years of Exciting History” (September 13,1965);and “NBC: A Documentary” (May 16,1966). Spragens, William C. Electronic Magazines: Soft News Programs on Network Television. Westport, CT: Praeger, 1995. Standage, Tom. The Victorian Internet: The Remarkable Story of the Telegraph and the Nineteenth Century’s On-line Pioneers. New York: Walker, 1998.
Starch, Daniel. Principles of Advertising. Chicago: A.W. Shaw 1923. Stedman, Raymond. The Serials: Suspense andDrama by Installment. 2nd ed. Norman: University of Oklahoma Press, 1977.
Appendix D A Selected Bibliography
917
Steinbock, Dan. Triumph & Erosion in the American Media and Entertainment Industries. Westport, CT: Quorum, 1995. Steiner, Gary. The People Look at Television:A Study of Audience Attitudes. New York: Knopf, 1963. Stempel, Tom. Storytellers to theNation: A History of American Television Writing. New York: Continuum, 1992. Sterling, Christopher H. Electronic Media: A Guide to Trends in Broadcasting and NewerTechnologies, 1920-1 983. New York Praeger, 1984. . & Timothy R. Haight, eds. The MQSS Media: Aspen Guide to Communication Industry Trends. New York PraegerSpecial Studies, 1978. . & George Shiers. History of Telecommunications Technology: An Annotated Bibliography Lanham, MD: Scarecrow Press, 2000. . (Ed.). Encyclopedia of Radio. Chicago: Fitzroy Dearborn, 2002 (2vols.). Stewart, David. The PBS Companion: A History of Public Television. New York: TV Books, 1999. Stokes, John W. 70 Years of Radio Tubes and Valves. Vestal, Ny: Vestal Press, 1982. Stone, David M. Nixon and the Politics of Public Television. New York: Garland, 1985. Stone, Joseph, & Tim Yohn. Prime 7Jme and Misdemeanors: Investigating the 1950s TVQuiz Scandal-a D.A.’s Account. New Brunswick, NJ: Rutgers University Press, 1992. Storey, Graham. Reuters: The Story of Q Century of News-Gathering. New York: Crown, 1951 (reprinted by Greenwood, 1970). Studies in Broadcasting. Cambridge, MA. Harvard Radiobroadcasting Project, 1940-1948 vols.; (6 reprinted by Arno Press, 1971). Sturcken, Frank. Live Television: The Golden Age of 1946-1958 in New York. Jefferson, NC: McFarland, 1990. Sturmey, S. G.The Economic Development of Radio. London: Duckworth, 1958.
Sugar, Bert Randolph. “The Thrill of Victory”: The Inside Story of ABC Sports. New York: Hawthorne, 1978. Summers, Harrison B., (Ed.). Radio Censorship. New York: H. W. Wilson, 1939 (reprinted by Arno Press, 1971). . A Thirty-Year History of Programs Carried on National Radio Networks in the United States, 1926-1956. Columbus: Ohio State University, Department of Speech, 1958 (reprinted by Arno Press, 1971). Summers, Robert E., & Harrison B. Summers. Broadcasting and the Public. Belmont, Calif:Wadsworth, 1966,1978.(With John Pennybacker for 2nd ed.)
918
Appendix D A Selected Bibliography
Surgeon General’s Scientific Advisory Committee on Television and Social Behavior. Television and Growing Up: The Impact of Televised Violence. Washington: GPO, 1972. SW-, Jon D., & Robert C. Reinehr. Handbook of Old-Thne Radio: A Comprehensive Guide to Golden Age Radio Listening and Collecting. Metuchen, NJ: Scarecrow Press,1993. Swerdlow, Joel L. Beyond Debate: A Paper on Televised Presidential Debates. New York Twentieth Century Fund, 1984. Swift, John. Adventure in Vision: The First 25 Years of Television. London: John Lehmann,1950. Tebbel, John. The Media in America. New York Crowell, 1975. Television (1944-1968, monthly). Feature articles on thetelevision industry. Television Digest (1945-present, weekly). Detailed and informed newsletter of broadcasting and electronics industries. Television Factbook (1945-present, biennial to late 1950s, then annual). Major reference directory of entire television industry-with useful data and statistics. Television Quarterly (1962-present, quarterly, though issued irregularly in mid-1970s). Official journal of the National Academy of Television A r t s and Sciences. TelevisiodRadioAge (1953-1989, biweekly), coversprogramming and advertising. SeeNBC 60th Anniversary Issue, May 1986. Temin, Peter,with Louis Galambos. The Fall of the Bell System. New York Cambridge University Press, 1987. Temporary Commission on Alternative Financing for Public Telecommunications (TCAF). Report to the Congress. Washington: TCAF/FCC, 1982-1983.
Terrace,Vincent. The CompleteEncyclopedia of Television Programs, 1947-1979.2nd ed. Cranbury, NJ: A. S. Barnes, 1979 (2 vols.). .Radio Programs, 1920-1984:A Catalog of over 1800 Shows. Jefferson, NC: McFarland, 1998. Thaler, Paul. The Spectacle: Media and the Making of the 0. J. Simpson Story. Westport, CT: Praeger, 1997. Thompson, Robert L. Wiring Q Continent: The History of the Telegraph Industry in the United States (1832-1866). Princeton, NJ: Princeton University Press, 1947 (reprinted by Arno Press, 1972). Toll, Robert C. The Entertainment Machine: American Show Business in the 7bentiethCentury. New York: Oxford University Press, 1982. Tracey, Michael.The Decline and Fall of Public Service Broadcasting. Oxford: Oxford University Press,1998.
Appendix D A Selected Bibliography
919
Tunstall, Jeremy, & David Walker. Media Made in California: Hollywood, Politics and the News. New York Oxford University Press, 1981. Turow, Joseph. Entertainment,Education,andthe Hard Sell:Three Decades of Network Children’s Television. New York: Praeger, 1981. TV Guide. (1953-present, weekly). See especially the Fall Preview Issue each September. Tyler, Tracy F. An Appraisal of Radio Broadcasting in the Land-Grant Colleges and State Universities. Washington: National Committee on Education by Radio, 1933. Tyne, Gerald. Saga of the VacuumTube. Indianapolis, IN:Howard W. Sams, 1977. Udelson, Joseph H. The Great Television Race: A History of the American Television Industry, 1925-1 941. University: University of Alabama Press, 1982.
United Nations Educational, Scientific, and Cultural Organization (Unesco). Many Voices, One World:Communications and Society Today and Tomorrow. Paris: Unesco, 1980 (the “MacBride Commission”report). . News Agencies: Their Structure and Operation. Paris: Unesco, 1953. , Press, Film, Radio: Reports on theFacilities of Mass Communication. Paris: Unesco, 1947-1951 (7 vols.; reprinted in 3 by Arno Press, 1972). . Television: A World Survex and Supplement. Paris: Unesco, 1953, 1955 (2 vols.; reprinted in one by Arno Press, 1972). . World Communications: A 200 Country Survey of Press, Radio, Television, Film. Paris: Unesco, 1950,1951,1956,1964, and 1975. (Subtitle varies.) United States, Congress, Houseof Representatives. Radio Laws of the United States. Washington: GPO,1972 (revised from time to time with varied titles). United States, Congress, House of Representatives, Committee on Interstate and Foreign Commerce. Regulation of Broadcasting. 85th Cong., 2nd Sess., 1958. (Prepared by Robert S. McMahon.) . Investigation of Television Quiz Shows. Hearings. 86th Cong., 1st Sess., 1960 (2 vols.). . Responsibilities of Broadcast Licensees. Hearings. 86th Cong., 2nd Sess., 1960 (2 vols.). United States, Congress, Senate, Committee on Interstate and Foreign Commerce. Television Inquiry. Hearings in Six Parts, with several interim and special reports. 84th and 85th Congs., 1956-1958. United States, Department of Commerce. “Recommendations of the [Second] National Radio Committee,” Radio Service Bulletin (April 2, 1923), pp. 9-13 (reprinted, withnext four items, in Kittross, 1977, above).
920
Appendix D A Selected Bibliography
.
Recommendations for Regulation of Radio Adopted by the Third National Radio Conference. Washington: GPO, 1924. . Proceedings of the Fourth National Radio Conference and Recommendations forRegulation of Radio. Washington: GPO, 1926. . Annual Report of the Commissioner of Navigation to theSecretary of Commerce. Washington: GPO, 1921-1926. Annual Report of the Chief of the Radio Division to theSecretary of Commerce. Washington: GPO, 1927-1932.
.
Van Tassel, Joan M. Advanced Television Systems: Brave New TV Newton, M A : Focal Press, 1996. Variety (1905-present, weekly). Major trade weekly of show business. A Study of Show Business Blacklisting. New Vaughn, Robert.Only Victims: York Putnam, 1972. Vipond, Mary. Listening In: The First Decade of Canadian Broadcasting, 1922-1 932.Montreal: McGill/Queen’s University Press, 1992. Vogel, Harold L. Entertainment Industry Economics:A Guide for Financial Analysis. New York: Cambridge University Press, 1986, 2001. Waldrop, Frank C., & Joseph Borkin. Television: A Struggle for Power. New York Morrow, 1938 (reprinted by Arno Press, 1971). Walker, James R., & Douglas A.Ferguson. The Broadcast Television Industry. Boston: Allyn & Bacon, 1998. Waller, Judith C. Radio, the Fifth Estate. 2nd ed.Boston: Houghton Mifflin, 1950.
Warner, Charles. Broadcast and Cable Selling. Belmont, CA: Wadsworth, 1986.
Warner, Harry P. Radio and Television Law and Radio and Television Rights. Albany, W. Matthew Bender, 1948, 1953vols.). (2 Warren, Donald. Radio Priest: Charles Coughlin, the Father of Hate Radio. New York: Free Press, 1996. Watson, Mary Ann. The Expanding Vista: American Television in the Kennedy Years. New York Oxford University Press, 1990. Weaver, Pat, with Thomas M. Coffey. The Best Seat in the House: The Golden Years of Radio and Television. New York: Knopf, 1994. Webb, G. Kent.The Economics of Cable Television.Lexington, MA: Lexington Books, 1983. Webster, James G., Patricia F. Phalen & Lawrence W. Lichty. Ratings Analysis: The Theory and Practice of Audience Research. 2nd ed. Mahwah, NJ: Lawrence ErlbaumAssociates, 2000.
Appendix D A SelectedBibliography
921
Wedlake, G. E. C. SOS: The Story ofRadio Communication. Newton Abbot, England: David & Charles, 1973. Weinberg, Meyer.TV and America: TheMorality of Hard Cash. New York: Ballantine, 1962. Wertheim, Arthur Frank. Radio Comedy. New York: Oxford University Press, 1979. West, Darrell M. Air Wars: Television Advertising in Election Campaigns, 1: 952-1992. Washington: Congressional Quarterly, 1993. White, David Manning, & Richard Averson, (Eds.). Sight, Sound, and Society: Motion Pictures and Television in America. Boston: Beacon, 1968.
White, Llewellyn. The American Radio. Chicago: University of Chicago Press, 1947 (reprinted by Arno Press, 1971). White, Paul W. News on the Air. New York: Harcourt, Brace, 1947. Whitfield, Stephen E., & Gene Roddenberry. The Muking of Star 7kek. New York: Ballantine, 1968. Whittemore, Hank. CNN: The Inside Story. Boston: Little, Brown, 1990. Wilk, Max. The Golden Age of Television: Notes from the Survivors. New York Delacorte, 1976. Williams, Christian. Lead, Follow or Get Out of the Way: The Story of Ted Rrner. New York: Times Books,1981. Williams, Frederick. The New Communications. 2nd ed. Belmont, CA: Wadsworth, 1989. Williams, Huntington. Beyond Control: ABC and the Fate ofthe Networks. New York: Atheneum, 1989. Wilson, Geoffrey. The Old Telegraphs. London: Phillimore, 1976. Winsbury, Rex, and Shehina Fazal. Vision and Hindsight. London: John Libbey, 1994. Winship, Michael. Television. New York:Random House, 1988. Winston, Brian. Media Technology and Society: A Historyfrom the Telegraph to the Internet. London: Routledge,1998. Witherspoon, John, & Roselle Kovitz,with an update by RobertK. Avery and Alan G. Stavitsky. A History of Public Broadcasting. Washington: Current, 2000 (2nd ed.). Wolfe, Charles H., (Ed.). Modern Radio Advertising. New York Funk and Wagnalls, 1949. Wood, Donald N., & Donald G. Wylie. Educational Telecommunications. Belmont, CA: Wadsworth, 1977.
922
Appendix D A Selected Bibliography
Woods, James. History of International Broadcasting. London: IEE, 1992 and 1999 (2 vols.). Woolery,George W. Children'sTelevision: The First Thirty-Five Years, 2946-1981. Metuchen, NJ: Scarecrow, 1983,1985(2 vols.). Woolley, Lynn, et al. Warner Bros. Television: Every Show of the Fifties and Sixties Episode-by-Episode. Jefferson, NC: McFarland, 1985. World Radio-TVHandbook. New York: Billboard Publications (annual). Wylie, Max. Clear Channels: Television and the American People. New York: Funk andWagnalls, 1955. Yates, Raymond Francis, & Louis Gerard Pacent. The Complete RadioBook. New York Century, 1922. Year-Book of Wireless Telegraphy and Telephony London: Wireless Press, 1913-1925 (annual). Young, Peter.Person to Person: The International Impact of the Telephone. Cambridge, England: Granta Editions, 1991.
Finding Out More Aboutthe Developmentof Broadcasting Although the books and journals listed in the bibliography above are the most common background resources for broadcasting scholars, they are not the only sources of information. Following are just a few of the more important Web sites, museums, archives, and specialized libraries for those interested in broadcasting history. 1. A Selection of Web Sites
This lists but a small fraction of the growing number of relevant and useful Web sites, most of which emphasize technological history. Additionally, there are many sites for specificradio and television programs and stars not noted here. Links on these sites will send you to many more. This list was assembled late in 2000. Television Technology Web Sites Early British Television History: the Backgroundto Baird's Phonovision. Concentrates on thework of John Logie Baird and hismechanical television system-including crude period recordings one can view through the site. The Farnsworth Chronicles by Paul Schatzkin.
Appendix D ASelected Bibliography
923
Strongly biased toward the view that he has been underappreciated, this is a useful site on thelife and work of Phi10 T. Farnsworth, containing a narrative biography, many graphics, and a chronology. History of Color Television by Edwin H. Reitan Jr. Detail on the competition between the CBS (partially mechanical) and RCA (all-electronic) color systems and thefierce industry debate over color TV technical standards in the 1940s and early 1950s,the FCC’s decisions adopting the CBS system (1950)and then the RCA system used today (1953),as well as the real inception of color broadcasting in 1954. A History of Television by Jean-JacquesPeters of the European Broadcasting Union. Sections on most technical aspects of the medium’s development, handsomely illustratedwith photos and clear color diagrams, with focus on Europe. Useful comparison with Americansites. The History of Television by Broadcast Engineering magazine. A technically oriented narrative with a host of photos (some in color) so that thesite takes a while to download. This is part of a larger site including other aspects of television. The Museumof Television (Toronto). This Canadian museum offers a virtual tour of three galleries (on mechanical television, TV at the 1939 World’s Fair, and the Philco “Predicta” line of receivers) as well as TV inventorsfinventions. PageOne: a History of British Television. Exploration of the history and operation of both public service-oriented BBC and commercial companies, including someprogram history. US. Television Chronology, 1875-1970 by Jeff Miller. Includes specific sign-on dates of many U.S. television stations. Updating is constant and current. HDTV-An Historical Perspective by Corey Carbonara. Primarily text, divided into extensive chapters carrying the story back to the 1930s. National Cable Television Center. Denver-based industry-sponsored museum and archive of CATVhistory. TVPmgram History Web Sites Most of the following sites, focusing on program genres (often with links to specific program Web sites) are created and maintained by amateurs rather than professionals. All show signs of consistent and current updating.
924
Appendix D A Selected Bibliography
There are many sites devoted to specific programs not listed here. Also check sites of (or about) themajor networks. TheDuMont Television Network by Clarke Ingram. Steadily growing site on the role of the short-lived (1948-1955)DuMont national TV network and some of its programs (including Captain Video), as well as network founder andtelevision inventor Allen B. DuMont. Fifties Television by WebBoomers Inc. chttp://www.webboomers.com/ lifestyles/nostalgia/5OsTV/5OsTV.htm> Links to roughly two dozen top network programs of this era (including four sites for I Love Lucy). Shadows of the Past: TV Westerns. Arranges programs by decade, beginning with the 1950s,and then by program title. Many links to specific programs and stars. TV in the ’50s by Candace Rich. Provides links to many television programs of the era, listed by type (drama, news, kids shows, comedy, variety, quiz, westerns) and then by specific program title. Radio TechnologyWeb Sites In addition to these technology-oriented sites there are others for different inventors (Marconi, Tesla). Edwin Howard Armstrong by Mike Datzdorn. Based on the extensive Harry Houck collection, this includes a host of historical documentsin reproduction. Antique Radio Pageby D. J. Adamson. One of many designed for those who collect old radios, this includes books, articles, links, classified ads, andmore. Antique Wireless Association Electronic Communication Museum. Details on the collection and its accessibility. (See “Museums” below.) The Broadcast Archive by Barry Mishkind. Includes equipmentand programming sections and links, plus detailed information about the FCC, old stations, and links to other archives and organizations. An amazing potpourri. The RMS Titanic Radio Page. Quite detailed page with information on the radio equipment used at the time (1912),the operators, and the actual messages sent and received from the doomed ocean liner.
Appendix D ASelectedBibliography
925
Surfing the Aether. Extensive site with chronology arranged by decade and incorporating many linksto people and developments. United States Early Radio History by Thomas H. White. A wonderfully useful site that offers full copy of a variety of pre-1920 articles and documents plus the author’s own valuable research on early radio station list publications, call-letter policies, and the like. World of Wireless. A Netherlands site (in both English and Dutch) that takes the story through World War 11. Includes details of the owners’ collection. History of Recording Technologyby Steve Schoenherr. Includes phonographs, tape recorders, and even musical jukeboxes. Offers a 16-part chronology with pictures and links. Soundsite. Reviews all aspects of current home entertainment audio and video technology, including data from manufacturers and brief chronology. Radio Program Web Sites Virtually any network radio entertainment program is the subject of a site or sites. Listed here are some general Web sites that are linked to a host of others. Jack‘sList of Old Time Radio Pages. Just that-a long list of links to all kinds of old time radio (OTR) sites, many of which allow you to hear whole program episodes. Also includes information on general radio history resources of all kinds. Regularly updated. Radio Days. Information on many old network radio programs (including somecomplete logs), OTR chat room, FA@, and more. Old Time Radio. Includes manylogs of program series, links to other sites, and information on collecting programs. Olde Time Radio. Allows one to listen to episodes of about a dozen old radio dramatic programs.
2. Museums These U.S. museumsandcollections are open to the general public. Establishment of new institutionsand relocation of older ones happens frequently, as those who compare this editionof Stay Tuned with the second
926
Appendix D A Selected Bibliography
edition will notice. There also are some private collections that sometimes are available to serious scholars, and specialized portions of other museums such as the Henry Ford Museum at Dearborn Village, MI. This list is only a beginning, so be sure to look for a collection or exhibition near you. American Advertising Museum, 5035 S.E. 24th Ave., Portland, OR 97202. <www.admuseum.org/museum/ about.htm> 503-AAM-0000(503-226-0000). Excellent exhibit and extensive collection on both print andbroadcast advertising, with screening of classic television ads. Call ahead, open weekdays only by reservation. Antique Wireless Association Electronic Communication Museum, Village Green, Routes 5 & 20,Bloomfield, NY 14468. 716-657-6260. ewww. antique wireless.org> A very good collection of equipment, emphasizing the pre-broadcast days of wireless. AWA also is developing a useful research library and archive. Open only on weekends without advance reservations. Publishes quarterly The Old Timer’s Bulletin with solidly researched articles and columns onearly technology. Bellingham Antique Radio Museum,1315 Railroad Ave., Bellingham, WA 98225.<www.antique-radio.org/homeframe.html> Offers extensive collection of old radio receivers. Web site provides considerable reference information. Wednesday-Saturday. Information Age, National Museum of American History, Smithsonian Institution, 14th St. & Constitution Ave., N W , Washington, DC 20560. 202357-2700. Permanent exhibit from the telegraph through moderncomputers, with extensive and rare material on radio and television broadcasting. Also see nearby exhibit on electricity and Thomas Edison. Museum of Broadcast Communications,Chicago Cultural Center, Michigan cwww.mbc Ave. &Washington St., Chicago, IL 60602-3407. 312-629-6000. net.org/> Includes very good museum, plus an extensive archive and listening/ viewing posts for radio and television programs. Museum of Radio and Technology, 1640 Florence Ave., Huntington, WV 25701. 304-525-8890. Located in a former school, this includes a large display of radios and related technology. Museum of Television and Radio(formerly Museum of Broadcasting). Two and 465 locations: 25 West 52nd St., New York, NY 10019. 212-621-6600 North Beverly Dr., Beverly Hills, CA 90210. 310-786-1000. cwww.mtr.org> This well-established collection of radio and television programs now has two purpose-built locations with gift shops (also on-line). Issues valuable catalogs fromexhibitions.
Appendix D A SelectedBibliography
927
New England Museumof Steam and Wireless,1300 Frenchtown Rd., East Greenwich, RI 02818.401-885-0545. A good collection in both fields. Some useful publications. Newseum, 1101 Wilson Blvd.,Arlington, VA 22209.888-Newseum (888-6397386) or 703-284-3544.<www.newseum.org/newseum/aboutthenewseum/ index.htm> Located near the nation’s capital, this foundation-supported facility offers a large and popular museum dealing with all aspects of journalism, plus an extensiveresearch archive. It plansto move to adowntown Washington, DC location. Pavek Museumof Broadcasting, 3515 Raleigh Ave., St. Louis Park, Minnesota 55416. 952-926-8198. Fax: 952-929-6105. <www.pavekmuseum.org/> Extensive collection of radio receivers, television sets, and related broadcast equipment. 3. Libraries andArchives This is asmall selection. See also Donald G. Godfiey (comp.),Reruns on File:
A Guide to Electronic Media Archives (Hillsdale, NJ: Lawrence Erlbaum Associates, 1992),for a n annotated state-by-state guide. For the nation’s capital, see Bonnie G. Rowan & Cynthia J. Wood, Scholar’s Guide to Washington, DC.,Media Collections (Baltimore: Johns Hopkins University Press, 1994). Private collections of programs are not listed below. American Archive of Broadcasting, Special Collections Reading Room, Thousand Oaks Library, 401 E. Janss Road, Thousand Oaks, CA 91362.805449-2660, ext. 228. Fax: 805-449-2675.cwww.tol.lib.ca.us/lspecoll. htmb Huge collection of printed and archival material, including many collections concerning specific radio stars. On-line catalog. George H. Clark “Radioana” Collectionand Allen B. DuMont Collection, Archives Center, National Museum of American History, Smithsonian Institution, Room C340, 14th St. & Constitution Ave., N W , Washington, DC 20560. 202-357-3270. For Radioana: cwww.si.edu/lemelson/dig/radioana/ index.html#timeline. “Radioana” is one of the finest collections of paper materials of all kinds on the development of wireless and radio. Clark was an acquisitive RCA historian, who assembled an invaluable collection from radio’s early years. There is a published and on-line register of contents which offers a useful chronology, information on important wireless companies, and a notion of how the collection developed. The DuMont Collecbefore planning tion focuses on the riseof television. Contact the Center a visit.
928
Appendix D ASelected Bibliography
Library of American Broadcasting (formerly Broadcast Pioneers Library), Hornbake Library, University of Maryland, College Park, MD 20742-7011. 301-405-9160. Fax: 301-314-2634. <www.lib.umd.edu/UMCP/ LAB/> This collectionbegan as an effort of The Broadcast Pioneers Foundation in 1964, and was housed until 1994 in the National Association of Broadcasters building. Since then, it has been locatedever-larger in facilities at Maryland. The collection includes books, pamphlets, periodicals, personalcollections,oralhistories,photos,audio/visualrecordings, scripts and extensive vertical files. It is co-located with theNational Public Broadcasting Archives. MassCommunicationsHistory Collections, State Historical Society of Wisconsin, 816 State St., Madison, W1 53706. 608-624-6400.<ww.shsw. wisc.edu/archives/readroom/masscol.html> One of the largest collections of individual and institutional archives in journalism, advertising, broadcasting and general mass communication, it was started in 1955 with the papersof H. V. Kaltenborn. It includes mostof the NBC archives into the1950s. Motion Picture, Broadcasting and Recorded Sound Division, Library of Congress, James Madison Building, 101 Independence Ave., SE, Washington, DC 20540-4690.
Motion Picture and Television Reading Room, LM 336, Performing Arts Reading Room (includes radio and audio holdings), LM113, There are substantial holdings in both radioand television broadcasting in this collection, best accessed from the two reading rooms in the same building. Motion Picture, Sound and Video Unit, Special Media Archives Services Division, National Archives and Records Administration, Archives 11, 8601 Adelphi Road, College Park,MD 20740-6001. 301-713-6800,<www.nara.gov/ research/bymedia/moint.html#online> Many catalog aids, some on-line, are available forthis huge collection of thousands of news, documentary, and government radio, television and film programs. National Public Broadcasting Archives, Hornbake Library, University of Maryland, College Park,MD 20742-7011.301-405-9160, cwww.lib.umd.edu/ UMCP/NPBA/index.html> Established in 1990, includes records of the CPB, NPR, PBS, and related organizations as well as the papers of prominent individuals in public radio and television. This collection is co-located with the Library of American Broadcasting. Radio Archiveof the Universityof Memphis, Microforms Dept., McWhirter Library, University of Memphis,Memphis, TN 38152. 901-678-3174, <www.people.memphis.edu/-mbensman/welcome.html>
Appendix D A SelectedBibliography
929
Created by Dr. Marvin Bensman, this is one of the better collections of radio programs on tape. See preceding paragraph for the URL of its on-line catalog. UCLA Film and Television Archive Research and Study Center(formerly ATAS (Association of Television Artsand Sciences)-UCLA Television Archive), 46 Powell Library, University of California at Los Angeles, Los Angeles, CA 90024. 310.206.5388.~www.cinema.ucla.edu/ research.html> One of the larger collections of film and videotape television programs. Vanderbilt Television News Archive, Vanderbilt University, 110 21st Ave. South, Suite 704, Nashville, TN 37203. 615-322-2927. Fax: 615-343-8250, Keeps and indexesvideotapes of all broadcast television network newscasts and special eventscoverage since 1968.
This Page Intentionally Left Blank
A Abramson, AlbertH., 151,218, 879
Adir, Karin, 341,879 Adler, RichardP., 589, 879 Aitken, Hugh G. J., 51,879 Albig, William,81, 133, 879 Alford, W. Wayne, 402,879 Alisky, Marvin, 589, 879 Allen, Craig,402, 879 Allen, Fred, 879 Allen, Frederick Lewis,151, 879
Allen, Robert C., 678, 879 Allen, Steve, 341, 879 Allport, GordonW., 151,206, 887
Aly, Bower, 151, 880 Anderson, Kent, 403, 880 Andrews, Bart,880 Annals of the American Academy of Political and Socid Science, 151, 218, 880 Antebi, Elizabeth,588, 880 Anthony, Edward, 218,923 Appleyard, Rollo, 51, 880 Archer, Gleason L.,103,151, 880
Arlen, Michael J.,589, 880 Arnheim, Rudolf,151,880 Arnold, FrankA., 151, 880 Atkinson, Carroll,218,880 Auletta, Ken,678, 880 Averson, Richard,478,921 Avery, Robert K.,678,882
B
Balfour, Michael, 881 Banks, Jack,588,881 Bannerman, R. LeRoy, 218,882 Banning, William Peck,70, 103,882
Barfield, Ray, 151,882 Barnouw, Erik, 103,151,218, 266,341,748,882
Barrett, Marvin,478, 882 Barron, Jerome A.,882 Barry, Gerald, 882 Bates, Stephen, 589, 892 Batson, LawrenceD., 151,882 Baudino, JosephE., 103,882 Baughman, JamesL., 16,403, 882
BBC, 882 BBC Handbook, 479,882 Bedell, Sally,588, 882 Beebe, Jack H.,478,909 Beniger, James R.,16, 882 Benjamin, Burton,589,882 Benjamin, Louise M,,103,882 Bennett, Jeremy,883 Bensman, MarvinR., 103,589, 883
Berg, JeromeS., 51,883 Bergmeier, HorstJ. P., 267, 883 Bergreen, Laurence,151,341, 883
Beville, Hugh Malcolm, Jr., 206,218,478,589,883
Bibb, Porter, 588, 883 Bilby, Kenneth, 51, 883 Billboard, 883 Bird, WilliamL., Jr., 341, 883 Bishop, GeorgeE , 589,883 Blake, George G., 51,883 Blakely, Robert J.,218,402, 478,883
Baer, Walter S., 479, 881 Bagdikian, Ben H., 478,881 Baker, John C., 218, 881 Baker, W. J., 51, 882 Baker, WilliamF., 678, 881 Baldwin, Thomas,588,882
Blanchard, Margaret A.,16,883 Bliss, Edward,Jr., 218, 266, 883 Block, Alex Ben,588,884 Blondheim, Menahem,17,884 Bluem, A. William, 402,478, 884
Blum, Daniel,341,884 B l u e , Keith, 589,884 Blythe, Cheryl,884 Boddy, William,341, 884 Boettinger, H. M., 17, 884 Bogart, Leo,403,884 Boorstin, Daniel J.,16, 884 Borkin, Joseph,218,920 Bower, RobertT.,456,478, 553,589,884
Boyd, Douglas A.,678,884 Boyer, Peter J.,589, 884 Braestrup, Peter,478, 884 Braun, Ernest,588, 884 Braun, Mark J.,588,884 Brenner, DanielL.,589, 884 Briggs, Asa A., 103,151,219, 267,479,885
Bright, Charles,17, 885 Brindze, Ruth,885 Brinkley, Joel,678,885 Broadcasting, 350, 748,828, 867,885
Broadcasting Yearbook, 289, 828,832,835,839,885
Brock, GeraldW., 17,885 Brooks, John,17,885 Brooks, Tim,341,886 Brown, Les,341,478,886 Brown, Robert J.,218,886 Brown, Ronald,478,886 Browne, DonaldR., 589,678, 886
Bruce, RobertV.,17,886 Bryson, Lyman,341,886 Buehler, E. C., 151, 886 Bulman, David,266,886 Burlingame, Roger,266, 886 Burns, R. W., 151,218,219, 886
Burns, Russell, 886 Burrows, A. R., 886 Buxton, Frank, 151,886 Buzenberg, Bill, 478,886 Buzenberg, Susan,478,886 Byron, ChristopherM., 886
931
932
Author Index
C Campbell, Robert, 341,886 Cantor, Muriel, 887 Cantor, Muriel G., 478, 887 Cantril, Hadley, 151, 206, 887 Cardiff, David, 219,913 Caristi, Dominic, 402, 887 Carnegie Commission on Educational Television, 425, 478,887
Carnegie Commission on the Future of Public Broadcasting, 588,887 Carpenter, Humphrey, 887 Carpenter, Ronald H.,218, 887 Carter, Samuel, m, 17, 887 Cassata, Mary, 1983,887 Castleman, Harry,887 Cater, Douglas, 478, 887 Chappell, MatthewN.,248, 266,887
Chase, Francis, Jr.,218, 887 Cheney, Margaret,51,887 Chester, EdwardW., 402,478, 887
Childs, Harwood L., 266,887 Chiu, Tony, 341, 888 Christensen, Mark,589,888 christman, Trent, 888 Clarke, Arthur C., 17,888 Cloud, Stanley, 266,888 Coates, Vary T.,17, 888 Codding, George A.,589, 888 Codel, Martin, 151,888 Coe, Lewis, 17,51,888 Cogley, John, 341, 888 Cole, Barry G.,478,479, 888 Cole, J. A., 267, 888 Collins, Mary, 678, 888 Collins, Robert, 17, 888 Columbia Broadcasting System, 212,402, 888 Combs, James E.,589, 908 Communication Booknotes Quarterly,889 Compaine, BenjaminM., 479, 588,678,889
Comstock, George,589,889 Connah, Douglas,218,889 Cook, Joe, 915 Cook, Rick,588,889 Coons, John E., 403,889 Cooper, Isabella M.,889 Cooper, Kent,218,889 Corporation for Public Broadcasting, 247,478,828, 843,889
corn, 0.Casey, 890 Corwin, Norman, 218,890 Counterattack, 341,889
Covert, CatherineL., 151, 890 Cowan, Geoffrey, 589,890 Cox, Jim,151,890 Crawford, Bill, 896 Crosby, John, 341,890 Crowley, David,890 Csida, Joseph,16,890 Csida, June Bundy, 16,890 Culbert, David Holbrook,218, 266,890
Cunningham, Don R., 589,899 Curtin, Michael,478,890,916 Czitrom, Daniel J.,16, 890
D Dalton, W. M., 51,890 Danielian, N.R., 17, 890 Davis, Henry B., 17,890 Davis, Jeffery, 341,890 Davis, Stephen B., 151, 890 Day, James,478, 890 De Bruin, Ronald,678,890 de Forest, Lee, 51, 891 DeFleur, Melvin L., 266, 905 Delfiner, Henry,267,892 DeLong, Thomas A., 218,891 Desmond, Robert W., 17,891 DeSoto, Clinton B., 51,892 Dessart, George,678,882 Diamant, Lincoln,402,478, 891
Diamond, Edwin,589,891 Dibner, Bern, 17,891 Dill, Clarence C., 219,891 Dinsdale, A. A., 151,891 Dizard, WilsonP.,479,891 Donovan, Robert J.,478,892 Douglas, Susan J., 51,151, 891 Dreyer, Carl,892 Dryer, ShermanH., 266,891 Dummer, G. W. A., 17, 891 Dunham, Corydon B.,478,891 Dunlap, Orrin E.,Jr., 51, 151, 341,748,891,892 Dunning, John, 151,892 Dupagne, Michel, 678,892 Dupuy, Judy,341,892 Duus, Masayo, 267,892 Dygert, WarrenB.. 218,892
E Eastman, Susan Tyler, 678,892 Eberly, Philip K.,218,403,892 Eckhardt, George H.,218,892 Eddy, William C., 341, 892 Edelman, Murray,219,892 Edmonson, Madeleine, 892
Education on the Air, 892 Educational Broadcasting Review, 892 Edwards, John Carver, 267,892 Eighth Art, The, 478, 893 Einstein, Daniel,478, 589, 893 Eisner, Joel, 893 Electronic Media, 556, 893 Eliot, Marc,589, 893 Elliott, Philip, 893 Elliott, WilliamY., 403, 893 Ely, Melvin Patrick,151, 893 Emery, WalterB., 403,479, 893 Engelman, Ralph, 478,893 Eoyang, ThomasT.,218,893 Epstein, EdwardJay, 478,893 Erickson, Hal, 341,893 Ettlinger, Harold, 267,893 European Audiovisual Observatory, 678, 893 Everson, George,218,893 Ewen, Elizabeth, 893 Ewen, Stuart,893
F Fabe, Maxene,894 Fahie, J. J., 17, 51, 894 Fang, Irving E.,16, 218, 266, 894
Farnsworth, Elma G., 894 Fates, Gil, 894 Faulk, John Henry, 403,894 Fazal, Shehina, 921 Federal Communications Commission, 17, 127, 151, 218,219,251, 289, 294,341, 402,588,589,894,895
Federal Communications Law Journal, 895 Federal Radio Commission,98, 144,151,251,414,875,895
Federal Trade Commission, 103,589,895
Fejes, Fred, 267, 895 Felix, Edgar,151,895 Fensch, Thomas,589,895 Ferguson, Douglas A., 678, 892,920
Ferris, Charles, 589, 895 Fessenden, Helen, 51,895 Field, HarryN., 341, 903 Fifty Years of A.R.R.L.,51, 895 Fink, DonaldG., 218,895 Finn, Bernard, 17,888 First 50 Years of Broadcasting, The, 218,895 Fischer, Stuart, 478,895 Fisher, David E.,218, 895 Fisher, Marshall John,218,895
Author Index
Flannery, Gerald,218,895 Fleming, John A., 51,895 Fong-Torres, Ben,403, 896 Foote, JoeS., 678,896 Foust, JamesC., 219, 896 Fowler, Gene, 896 Fox, Stephen, 896 Frank, Reuven,478,896 Frank, Ronald, 896 Frank, Ronald E.,896 Frankl, Razelle,589,896 Franklin, Marc A., 896 Frieden, Robert M,,678,909 Friendly, Fred,479, 896 Friendly, FredW., 908 Frost, S. E., Jr.,151,218, 219, 896
G Galambos, Louis, 17, 918 Ganley, Gladys D.,588,896 Ganley, Oswald H.,588,896 Garay, Ronald,403,588,589, 896
Garner, Joe,896 Gates, Gary Paul, 478, 896 Gerani, Gary,897 Gerrold, David,897 Gianakos, Larry James,341, 897
Gibson, George H.,478, 897 Gilbert, Robert E.,478,897 Gitlin, Todd,589, 897 Glander, Timothy,403,897 Glenn, Jim, 51,887 Glick, Ira 0.. 478, 897 Glut, Donald F., 341, 897 Godhey, Donald G. 103,218, 341,897,908
Godfried, Nathan, 897 Goldberg, Gerald Jay,588, 897
589,
Greenberger, Martin,588,898 Greenfield, Jeff,341, 898 Grisewood, Edgar Norman, 151,924
933
Hunt, Darnel1 M.,678, 900 Husing, Ted, 218,900 Hutchinson, ThomasH., 341, 900
Gross, Ben,341, 898 Gross, Gerald C.,17,219,899 Gross, Lynne Schafer,588, 898 Guide to Independent Television, 898 Gunther, Marc,678,898
Huth, Amo, 266,900
I Independent Thinking, 901 Inge, M. Thomas, 16, 901 Instant World, 901
H Hadden, Jeffrey K.,589,898 Haight, Timothy R.,917 Halberstam, David, 341, 898 Hale, Julian, 898 Hall, Jim,478, 898 Hallin, Daniel C.,478, 898 Halper, Donna L., 103, 898 Hammond, Charles M,, Jr.,478, 898
Hancock, H. E., 51,898 Harlow, Alvin F., 17, 899 Harmon, Jim,151,341,897,899 Harris, Jack W.,266,902 Harris, JayS., 478, 899 Harris, Paul, 479,899 Hawes, William, 341,899 Hawks, Ellison, 51,899 Hawver, Walt,341, 899 Head, SydneyW., 402,423, 468,478,479,589,748,899
Hecht, Jeff,588, 899 Heeter, Carrie, 589, 899 Heighton, Elizabeth, 589, 899 Heldenfels, R. D., 341, 899 Henck, Fred W.,17,899 Henson, Robert, 589,899 Herring, James M.,219,899 Hettinger, Herman S., 103,127, 151,218,899,900 Heyer, Paul,890
Goldberg, Lee,341, 897 Hickman, Tom, 900 Goldberg, Robert,588, 589,897 Hijiya, JamesA., 51,900 Goldenson, LeonardH., 588, Hill, Harold, 402, 900 897 Hill, RuaneB., 478,903 Goldmark, Peter C.,897 Hilliard, RobertL., 678, 900 Goldsmith, AlfredN.,151,897 Himmelweit, HildeT., 403, 900 Goldstein, Fred, 341, 898 Historical Journalof Film, Goldstein. Stan, 341, 898 Radio Television, 900 Gomery, Douglas,479,678,889 Hobson, James R.,909 Graham, MargaretB. W., 588, Hogben, Lancelot, 16,900 898 Hooper, C. E., 248,266, 887 Gramling, Oliver, 17, 898 Horsfield, Peter G.,589, 900 Grandin, Thomas, 898 Hosley, David H.,218,900 Grant, August, 678,898 Howe, Russell Warren,267,900 Green, Timothy,479,898 Howeth, L. S., 51,900 Greenberg, Bradley S., 589,899 Hubbell, Richard W., 218,goo Greenberg, Marshall G., 896 Hudson, Robert V.,16,900
J Jaker, Bill, 103, 901 Jarvik, Lawrence A.,678,901 Jensen, PeterR., 51,901 Johnson, KatherineE., 901 Johnson, Nicholas,461,479, 901
Johnson, WilliamO.,478,901 Jolly, W.P., 51,901 Jome, Hiram L., 103,901 Journal of Broadcasting (Journal of Broadcasting and Electronic Media], 366, 901 Journal of Law and Economics, 901
Journal of Radio Studies,901 Journalism Histov, 902 Journalism Quarterly (Journalism &Mass Communication Quarterly), 901
Jung, Donald J.,479,901
K Kahn, Frank J.,151,341,589, 902
Kaltenborn, H. V.,266,902 Kamen, Ira,478,902 Kanze, Peter, 103, 901 Katz, Elihu, 589, 902 Keating, Stephen, 678,902 Keith, Michael C., 341,478, 678,900,902
Kempner, Stanley,341,748,902 Kendall, Patricia L., 341, 904 Kendrick, Alexander, 266,902 Kiernan, Thomas,902 King, W. James, 17,902 Kirby, Edward M.,266,902 Kisseloff, Jeff,902 Kitson, Jack William,478, 915 Kitboss, John M., 103,151, 882,902
Klatell, David A., 589,
902
934
Author Index
Knightley, Phillip, 902 Koch, Howard,903 Koenig, Allen E.,478, 903 Kovitz, Roselle,478, 922 Krasnow, Erwin G.,479,589,
Luke, Carmen, 478,905 Lumley, Frederick,151,867, 905
Lyle, Jack, 923
903
Krattenmaker, Thomas G., 678,
M
Morris, Joe Alex,17, 908 Moseley, Sydney A., 151,908 Mott, Frank Luther,908 Murray, Michael, 341, 908 Murray, Michael D.,678,908 Murrow, Edward R.,218,240, 908
903
Kraus, Sidney,403, 589, 903 Krinsky, David, 893 Kris, Ernst, 267, 903
L Laas, William, 341, 914 Lacy, Dan,17,903 Laemmar, J. W., 402,913 LaGuardia, Robert, 903 Land, Jeff,678,903 Landry, RobertJ., 341,903 Lang. Gladys Engel,478,903 L a g , Kurt, 478,903 Lardner, James,410,478,903 Lashner, Marilyn A., 478,903 Law and Contempomry Problems, 903 Lazar, Matthew,678,903 Lazarsfeld, Paul F., 206,218, 266,300,318,341,903,904
Le Duc, Don R., 478,589,904 Lean, Tangye,266,904 Leapman, Michael, 904 Lebow, Irwin,17,904 Lee, Alfred M., 17,904 Leigh, FredericA., 151, 897 Leinwoll, Stanley, 51, 904 Lent, John A., 589,904 Lescarboura, Austin C., 151, 897
Lessing, Lawrence, 51,158, 218,904
Levin, HarveyJ., 479,589,904 Levin, Murray B.,904 Levy, Sidney J., 478,897 Lewis, C. A., 51,904 Lewis, Tom, 904 Lichty, LawrenceW., 218,266, 341,678,825,849, 057,862, 865,867,904,920 Lingel, Robert, 151, 904 Lipschultz, JeremyH., 678, 905 Lodge, Oliver J., 51, 905 Lohr, Lenox,218,905 Longley, Lawrence D.,479, 589,903 Looker, Thomas,678,905 Lotz, Rainer E.,267, 883 Lowery, Shearon,266,905 Lucas, Philip Charles, 341,907 Lucas, Powe, 678,903
Mabee, Carleton,17, 905 MacDonald, J. Fred, 218,341,
N
478,905
Macdonald, Stuart, 588,884 MacFarland, David T., 678, 905 Maclaurin, W. Rupert, 51, 905 MacNeil, Robert,478,905 Macy, John, Jr., 478,905 Maddox, Brenda,478,905 Madsen, Axel,589, 906 Maine, Basil, 219, 906 Mair, George, 588, 906 Manning, Willard, Jr.,478,909 Marconi, Degna,51,906 Marcus, Norman, 589,902,906 Marcus, Sheldon, 218, 906 Marill, Alvin, H.,478,906 Marland, E. A., 17, 906 Marling, KaralAnn, 906 Marschall, Rick, 341,906 Marsh, Earle, 341,886 Martin, James,906 Matusow, Barbara, 589,906 Mayer, Martin,478, 906 Mayes, Thorn L.,51,906 McArthur, Tom, 151,906 McChesney, RobertW., 103, 906
McCourt, Tom,678,906 McGinniss, Joe,478, 906 McGowan, John, 478,908 McIntyre, Ian, 906 McMahon, A. Michal, 17,906 McNamee, Graham, 103,907 McNeil, Alex, 341, 907 McNeil, Bill, 103, 907 McNicol, Donald, 51,907 McVoy, D. Stevens, 588,882 Meehan, DianaM., 907 Merton, J., 478, 908 Melton, J. Gordon, 341,907 Merton, RobertK., 266,907 Metz, Robert,341,907 Meyrowitz, Joshua,589,907 Michael, Paul, 907 Michelis, Anthony, 907 Mickelson, Sig, 402,478, 907 Midgley, Ned, 341,907 Milam, Lorenzo, 907 Miller, Merle, 478, 907 Minow, Newton N., 478,907 Mitz, Rick, 907 Morreale, Joanne,478,907
Nachrnan, Gerald,151, 908 National Associationof Broadcasters, 151,862,908 National Associationof Public Television Stations, 588, 908 National Broadcasting Company, 260,266,833,908 National Instituteof Mental Health, 479,557,908 Neff, Walter J.,218, 900 Newcomb, Horace, 341,908 NHK [Nippon Hoso Kyokai), 103,908
Nichols, John S., 589, 916 Nimmo, Dan, 589,908 Noam, Eli, 678, 908 Noll, Roger G.,478, 908 Norman, Bruce, 219,908 Nye, Russel B., 16, 909
0 O’Dell, Cary,341, 909 O’Hara, J. C., 909 Oettinger, Mal,479,888 Olson, Lynne, 266,888 Oppenheim, A. N., 403,900 Owen, Bill,151,886 Owen, Bruce M.,478,909
P Pacent, Louis Gerard,34,103, 922
Paglin, Max D., 219, 909 Paley, William S., 151, 909 Paper, Lewis, 909 Parish, JamesR., 907 Parker, Edwin B.,923 Parsons, PatrickR., 678,909 Passman, Arnold, 403,909 Paulu, Burton, 479,909 Pawley, Edward, 103,151,219, 909
Peck, Merton, 7.. 478,908 Peers, Frank W.,151,479,909 Pennybacker, John, 478,927 Perry, Armstrong, 151,909
Author Index
Perry, Jeb H.,478,910 Persico, JosephE., 266,910 Peterson, Theodore,17,910 Phalen, PatriciaF., 678, 920 Phillips, Vivian J.,51, 920 Picard, Robert G.,920 Pingree, Suzanne,887 Pitts, Michael R., 151, 910 Podrazik, Walter J.,887 Poindexter, Ray, 218, 910 Pollay, Richard W.,910 Poltrack, DavidF., 589, 910 Pool, Ithiel de Sola, 17,589,910 Pope, Daniel,910 Porterfield, John,218,910 Powe, Lucas A., Jr., 589, 910 Powell, John Walker,402, 910 Powers, Ron,589, 910 Presbrey, Frank,910 President’s Communications Policy Board,821, 910 President’s Task Forceon Communications Policy,910 Price, Jonathan,478,910 Price, Monroe E.,589, 678,
Robinson, Michael,589,911 Robinson, MichaelJ,, 589,911 Robinson, Thomas Porter,218, 922
Roddenberry, Gene,921 Rogers, Everett,912 Rolo, CharlesJ., 267, 912 Roper Organization, Inc.,455, 922
Rose, Brian G.,341,912 Rose, CorneliaB., Jr., 219, 922 Rose, Oscar, 922 Rosen, Philip T.,103,151,912 Rosenbloom, Joel, 909 Rosewater, Victor,17, 912 Rothafel, SamuelL., 103, 912 Rounds, David,892 Rowan, Ford,479,922 Rowland, Willard,479,912 Rowman, JamesW., 588,912 Rucker, Bryce W.,479,912 Rutkowski, AnthonyM., 589, 888
Ryan, Milo, 267,
912
884,920
Pricha, W., 909 Prime, ~ a m u eI., l 17, 911 Public Opinion Quarterly, 911 Public Telecommunications Review, 92 1
Q Quinlan, Sterling, 341,479, 588,91l
S Sackett, Susan, 884 Saettler,Paul, 402, 932 Sander, GordonF., 912 Sarnoff, David, 218,913 Scannell, Paddy,219, 913 Schechter, A. A., 218,923 Schemering, Christopher,913 Scherer, Ray, 478,892 Schmeckebier, LaurenceF., 151,933
R Rader, Benjamin G.,589,912 Radio Annual,911 Radio Broadcast,103,911 Radio Industry, The, 103, 911 Radio Regulation, 912 Ranney, Austin,589, 191 Reed, MaxineK., 92 1 Reed, RobertM., 911 Reid, JamesD., 911 Reid, T.R., 588, 911 Reinehr, Robert C.,151,928 Reinsch, J. Leonard, 478,912 Reynolds, Kay, 218,910 Rhoads, B. Eric, 151, 911 Rhodes, Evan,478,907 Rhodes, Frederick Leland,17, 91 1
Ritchie, Michael, 218,911 Rivkin, Steven R.,911 Robertson, Jim,911
Schramm, Wilbur,478,913 Schroeder, Richard,103,913 Schubert, Paul,51,923 Schulman, PaulH., 897 Schwartz, Bernard,403,923 Schwarzlose, RichardA., 17, 923
Seehafer, Eugene,402, 913 S e d , Peter B., 678,892 Segrave, Kerry, 403,479,913 Seiden, MartinH., 913 Sendall, Bernard, 479,923 Sennett, Ted, 923 Settel, hirig. 151, 341, 913, Sevareid, Eric,266,914 Shapiro, MitchellE., 341, 924 Shayon, Robert Lewis,914 Sheehan, Margaret,589, 911 Sheldon, H. Horton, 151,924 Shiers, George,17,111,151, 924,927
Shirer, William L., 218,914 Shively, Gerald D.,151, 880
935
Shulman, Arthur,332,341, 924
Shupe, Anson, 589,898 Shurick, E. P. J., 914 Siepmann, CharlesA., 341, 924
Sies, Luther F., 151,924 Simmons, Steven J.,479,914 Simpson, Christopher,403, 914
Singleton, Loy A., 588,914 Sivowitch, Elliot, 51, 914 Skill, Thomas, 887 Sklar, Robert,589,915 Skornia, HarryJ., 478, 915 Skutch, Ira,218,341, 915 Slate, Sam J.,925 Slater, Robert,341, 915 Slide, Anthony, 151,341, 925 Slotten, Hugh R., 341,915 Small, William,478,915 Smart, JamesR., 915 Smead, ElmerE.,403,915 Smith, Anthony,479,678,915 Smith, DelbertD., 588,925 Smith, George David, 17, 915 Smith, Myron J., Jr.,915 Smith, R. Franklin, 266,915 Smith, RalphLee, 478,916 Smith, Sally Bedell,151, 916 Smith, Wes,403,916 Smits, Jan, 678,890 Smulyan, Susan, 151,916 Smythe, DallasW., 916 Sobel, Robert,51,916 Socolow, A. Walter, 219,916 Soley, LawrenceC., 589, 916 Spalding, JohnW., 151,916 Speier, Hans,267, 903 Sperber, A. M., 266, 916 Spigel, Lynn, 341, 916 Sponsor, 926 Spragens, WilliamC., 678,916 Standage, Tom,17,916 Stanton, FrankN.,206,266, 300,904
Starch, Daniel, 125,923,916 Stauth, Cameron,589,888 Stedman, Raymond,151, 926 Steinbock, Dan,678,917 Steiner,Gary, 403,456,479, 924 917
Stempel, Tom, 341,917 Sterling,Christopher H., 17, 151, 514, 825,828,835,849, 858, 859, 860,863,867,872, 874,899,927 Stevens, JohnD., 151,890 Stewart, David,678, 927 STMPE Journal, 92 7 Stokes, JohnW., 51,917
936
Author Index
Stone, David M.,478,917 Stone, JonR., 341,907 Stone, Joseph,403, 791 Storey, Graham,917 Strassburg, Bernard, 17, 899 Strickland, Stephen, 478,887 Studies in Broadcasting,917 Sturcken, Frank, 341,917 Sturmey, S. G., 51,917 Sugar, Bert Randolph,478,917 Sulek, Frank,103,901 Summers, Harrison B., 151, 237,478,843,917 Summers, RobertE.,478,917
Surgeon General's Scientific Advisory Committeeon Television and Social Behavior, 458,479,918 Swartz, JonD., 151,918 Swerdlow, JoelL., 589, 918 Swift, John, 219, 918
T Tebbel, John, 17,918 Television, 918 Television Digest,828,865, 866,870,873,918 Television Factbook,839, 865,870,918 Television Quarterly,918 Television/Radio Age,918 Temin, Peter, 17,918
849,
Tracey, Michael,678,918
U Udelson, JosephH., 218,919 United Nations Educational, Scientific, and Cultural Organization (Unesco),17, 103,341,479,589,919
United States, Congress, House of Representatives, 919 United States, Congress, Senate, Committeeon Interstate and Foreign Commerce, 402,919 United States, Departmentof Commerce, 90,103, 919.920 Uth, Robert,51,887
V
840,
Van Tassel, Joan M.,920 Variev, 920 Vaughan, Frank,588,889 Vaughn, Robert,341,403,678, 920
Temporary Commission on Alternative Financing for Public Telecommunications (TCAF), 588, 918 Terrace, Vincent, 151,341,918 Terry, Herbert, 479,589,903 Thaler, Paul, 678, 918 Thomas M.,920 Thompson, RobertL., 17,918 Toll, Robert C.,16,918 Topping, Malachi C., 218,266, 341, 825, 867,904
b s t a l l , Jeremy, 588,919 "wow, Joseph, 919 TV Guide, 919 Tyler, TracyF.,151,919 Tyne, Gerald, 51,919
857,
Vince, Pamela, 403, 900 Vipond, Mary, 103,920 Vogel, Harold L., 920
Weaver, Pat Coffey,920 Webb, G. Kent, 588,920 Webster, James G.,678,920 Wedell, George, 589, 902 Wedlake, G. E. C., 51, 921 Weinberg, Meyer,921 Wertheim, Arthur Frank, 151, 921
West, Darrell M.,478, 921 White, David Manning,478, 921
White, Llewellyn,266,
341,
921
White, PaulW., 266, 921 Whitfield, Stephen E.,921 Whittemore, Hank,588, 921 Whitton, John B., 266,887 Wilk, Max, 921 Williams, Christian,921 Williams, Frederick, 588, 921 Williams, Huntington,588, 921 Wilson, Geoffrey, 17, 921 Winsbury, Rex,921 Winship, Michael, 589,921 Winston, Brian, 17, 921 Witherspoon, John, 478,921 Wolfe, Charles H., 341, 921 Wolfe, Morris,103,907 Wood, Donald N.,151,921 Woods, James,678,922 Woolery, George W., 478, 922 Woolley, Lynn,478,922 World Radio-TVHandbook, 589,922
Wylie, Donald G., 151, 921 Wylie, Max,402, 922
W
Y Waddell, Peter,151,906 Wddrop, Frank C., 218,920 Walker, David,588, 919 Walker, JamesR.,678, 920 Waller, Judith C., 341, 920 Warner, Charles, 920 862, 865, Warner, Harry P,, 266, 341,920 Warren, Donald, 218,920 Watson, MaryAnn, 920
Yates, Raymond Francis, 34, 103,912,922
Year-Bookof Wireless Telegraphy and Telephony, 51,922
Yohn,Tim, 403,917 Youman, Roger, 332,341,914 Young, Peter, 17,922
This Subject Indexis intended to help, without ovenvhelming, the reader. Accordingly, we havein non-rigorous fashion supplied a wordor two about jobtitles, etc. for individuals, but we have not duplicated the Glossary from Appendix B. We urge youto use Appendix B for technical, business and programming terms. Because standard reference works provide dates of birth and death of many show business and political figures, only a fewsuch dates are provided. The word(cable) in parentheses is intended to identify cable program services or channels. Most authors are to be foundin the Author Index that precedesthis Subject Index. Finally, the page numbers supplied do not provide context-particularly, as might be expected, in the conclusions reachedin Chapter 12-so we advise that you read a page or two both before and after any cited page.
A A&E (cable),621, 631 A6.P Gypsies, 80
ABC, see American Broadcasting Company Absolutely Fabulous,645 Across the board,799 A.C. Nielsen Co., see Nielsen Action for Children’s Television (ACT),459,473, 557,561,729
Activism, 729-730,735 Advanced television(ATV), 496,602,787
Adventure programs,439,536, 643
Adventure Theater,433 Advertisements, Advertisers/advertising cable television,717 cigarettes, 182, 430, 737 Code of Commercial Practice, 147 costs, 171,354 length, 723 liquor, 634-635 network dominance, 703-704
newspapers and consumer competition, 583 radio 1920-1926,75,76,79 1926-1933,97,124-127, 148 1934-1941,174,205-206 1941-1945,232-234 1945-1952,278,293-297 1961-1976,415
television 1945-1952,302,304, 306 1952-1960,362-364 1961-1976,428431 1977-1988,507,516, 523425,553,556 1988-2001,608,623-624, 633-635
wine, beer, andOTC drugs on television,524 Advertising agencies audience trends, 384-385 depression, 124,125 postwar radio,293-294 power and broadcasting, 177-180
time-buying and network domination, 173
Advisory Committees,123, 165
Advocates, The, 427 Aerial, see Antenna Aeriola Jr./Sr., 89 Affiliate time,799 Affiliateslaffiliation ABC, 283,359 CBS, 121-122.511, 513-514
characterization, 796, 798 Liberty Broadcasting System, 285 local programming, 180 MBS, 174
NBC, 119,833 networks compensation and competition, 509 control and domination, 174-175
growth, 830-836 importance, 283,284 programming needs, 503
relationships, 706-707 television, 358 Overmyer network operations, 422 Afghanistan, U.S.S.R. invasion, 546
AFM, see American Federation of Musicians AFN, see Armed Forces Network AFTRS, see American Federation of Television and Radio Artists Africa, broadcastingin, 102, 477
African Americans,71,432, 535,647, see also Blacksin television Africans, The, 520 937
938
Subject Index
AFRS, see Armed Forces Radio Service AGB, ratings, 553 Agencies, advertising,see Advertising agencies Agnew, VicePresident Spiro T., 450 A.H. Grebe (radio manufacturer), 76, 89
Ah4 (cont.)
growth and regulation, 95,96
transmission limitations, 115 1926-1933
allocation, 114 1941-1945
advertising, 294 construction freeze,
AJDS, 532
Aird Commission (U.K.),149 Airplanes, telecommunications,
228
expansion, 275-276 licensees and postwar FM/television ownership, 282-283
49
Albert, Eddie (comedian),435 Album-oriented rock (AOR), 526
1945-1952
’
Alcoholism, 532 Alda, Alan (actor),534 Aldrin, Edwin “Buzz” (astronaut), 448 Alexander bill, 56 Alexanderson, E.F.W. (scientist-inventor,
postwar expansion,277 receiver cost, 382-383 1952-1960
growth and age of television, 349-351 1961-1976
expansion and decline,
1878-1975), 34
412,413-415
Alexanderson alternator, 34,
program specialization,
35,57 A L F , 639
432 1977-1988
decline, 502 regulation, 572
All in the Family,438, 721 A11 Things Considered,519,628 All-channel receiveract, 454 Allen, Fred (comedian),129,
1988-2001
stations and systems, 611
190,298
technical standardsand regulation, 570 number of broadcasting stations
Allen, Gracie (comedienne), 129,309
Allen, Steve (writer,comedian, M.C.), 308,372 Allen, Woody (movie actor-writer-director), 609
Allison, Fran [children’s program performer),311 Allocation conflict and television versus F M , 249-256 definition, 771
FCC plan and television, 251,320
regulation, 572-573 Ally McBea1,618 Alternating current (AC), 27-28,817
AM (amplitude modulation) radio stations band and assignments,94-96 characterization, 772-773 competition and future of broadcasting, 701 broadcasting 1920-1926
assignments and interference, 144-145
.
1921-1940,827 since 1941,8274328 receivers, 314
Amah1 and the Night Visitors, 309
Amateur codetest, 596 Amateur hours, 243 Amateur operators,48, see also Ham radio operators Amateur radio,225 Amazon.com, 608 America Online (AOL),see AOL/Time Warner America’s Funniest Home Videos, 649,722 America’s Town Meeting of the Air, 200 American Bandstand,372 American Broadcasting Company (ABC) 1942-1945
formation and split-upof NBC, 231-232 mergers and postwar expansion, 288,289
American Broadcasting(cont.) 1952-1960
financial crisesand Paramount merger,357 1961-1976
network operations, 419-421
television news programming, 450 1977-1988
imitation and evolutionof television programming, 529,530 network upheaval,510, 513
news programming, 540, 541,542
Olympic game coverage, 546 1988-2001
network acquisition,617 news magazine programming, 658 affiliates and programming, 283,359
television dominanceand broadcasting future, 703,704
American Business Consultants, 336, see also Blacklisting American Experience,631 American Express,79 American Federationof Musicians (AFM), 148,257, 333
American Federationof Television and Radio Artists (AFTRA),396,419, see alsoBlacklisting; Unions American Health Network, 622
American Marconi Company, 39,58,61,62
American Medical Association, 146 American Network,232 American Playhouse,521 American Public Radio (APR), 519
American Radioand Research Company (AMRAD), 45, 70
American Radio Relay League, 44
American Research Bureau (ARB), 384,455, see also Arbitron American School of the Air, 138
Subject Index
American Societyof Composers, Authors and Publishers (ASCAP), 99, 147,213, 214, 782-783
American Telephoneand Telegraph (AT&T) 1920-1926
financial supportof early radio, 75 patent pooling agreement,
59,60-61,62 1926-1933
creation of NBC, 116-117 1934-1941
electronic television, 163
monopoly controlof radio and FCC investigations, 210 1945-1952
postwar interconnections and television networks, 286 rates for coaxial cableuse, 296 1961-1976
ABC network operations, 420
satellite communication, 411,412 1977-1988 divestiture, 485
rewriting the communications Actof 1934 and regulation, 562 1988-2001
cable stationsand systems, 614
investment in cable industry, 595 establishment and early history, 12 multiple system operator and futureof broadcasting, 709 American Tobacco Company, 182
AM-FM radio stations, 244, 415,433,526
Amos ‘n’Andy, 132,134,298, 309,366
Ampex ( V T R manufacturer), 348
Amplitude modulation,see AM AMRAD, see American Radio and Research Company Anchors, 377,444, 540, 725, see also News
Andy Griffith Show, 437 Angel, 648 Announcers, 67,80,82, 130, 242 Antenna, 249-250,330 Anthologies, 372, 373, 310-311,440 Antiques Roadshow,633 Antisiphoning rule, 417
Antismoking advertising,430, 737
Antisocial messages,670 Antitrust laws,10 Antitrust lawsuits 1934-1941,214 1961-1976,419,420 1977-1988,561,577 AT&T, 13
Antitrust recommendations, 108
Antiwar groups,530-531 AOL, see America Online AOL/Time Warner, 614,616, 709
AOR, see Album-oriented rock APBE, see Association for Professional Broadcasting Education andBEA Apollo 8 spaceship, 446 Apollo 11spaceship, 446, 447
Apollo 13 spaceship disaster, 447
Apollo astronauts,446 Appellate Courts,146, see also United States Courtof Appeals ARB, see American Research Bureau APR, see American Public Radio Arbitron ratings, 553,554,555, 665
Arc, 33, see also Spark-gap technique Arden, Eve (comedienne),309 310
Arledge, Roone(ABC executive), 442, 540 Arlin, Harold (early announcer), 67 Arlington National Cemetery, 444
Armed conflicts, 544 Armed Forces Network(AFN), 263
Armed Forces Radio Service (AFRS),242,263 Armour Research Foundation, 227
939
Armstrong, Edwin (FM inventor-innovator, 1890-1954)
allocation conflictand FM, 252-253
FCC compromise, 165 feedback circuit and radio wave reception,37-38 invention of FM radio, 157 innovation, 158-160 postwar expansionldecliie of F M , 278 radio transmissionin airplanes, 49 Armstrong, Neil(astronaut), 158,407,446,448
Army Hour, 242 Army Show, 183 Army Signal Corps,50 Army-McCarthy hearings, 379, 380
Arnett, Peter (newsman),656 Arnez, Desi (comedianproducer), 306, 310 Arpanet, 607 Arthur Godfrey and His Friends, 358-359 Arthur Godfrey’s Talent scouts, 358-359 As It Happens, 628 As lime Goes By. 630-631 Ash, Roy (Nixon aide), 462 ASCAP, see American Society of Composers, Authors, and Publishers Asia, broadcastingin, 102,399, 477
Aspen ruling,453 Assassination of President Kennedy, 407,444, 446,447
Assignment, 414,415416,771 table, 327 Associated Press, 136,193 Association for Professional Broadcasting Education (APBE),398 Association of National Advertisers, 140 AT&T,see American Telephone and Telegraph Atomic bomb,239 ATT Broadband, 614 ATV, see Advanced television Atwater Kent (radio receiver manufacturer), 130, 139
Aubrey, James(CBS executive), 421
Auctions of spectrum space, 522,626,771
940
Subject Index
Audience 1920-1926
donations and financial support of radio, 79 knowledge and radio programming, 92-93 1926-1933
changing receiver market, 139-140
development of research, 140-141 1934-1941
flow concept,205 FM radios, 159 imagination and drama programming, 192 loyalty and soap operas, 179,187
Mutual Broadcasting System, 174 systematic research, 200-207 1941-1945
developments and broadcasting, 317-319 research, 246-249 television, 229
Audio Frequency Control (AFC),351,819 Audio recording,489-490, 599-601
Audio recording formats, 804
Audio streaming,608, see also Internet Audion, 37,818, see also Triode vacuum tube Austria, 194 Automated formats,433 Automation, 409, 775 Automobile, 92,201, 233-234 Aware, Inc., 396-397, see also Blacklisting Axis radio propaganda,264-265 “Axis Sally”(WII propagandist), 264 Ayatollah Khomeini (Iranian leader), 543 Aylesworth, MerlinH. (first NBC president), 117, 118
B
1952-1960
viewing trends, 382-386 1961-1976
ratings and research, 454-459 1977-1988
changes and constancy, 550-559 1988-2001
share and news programming, 653 fragmentation, 662-666 broadcasting future characteristics, 728-734 fragmentation, 701, 710 loyalty and network dominance, 703-704 Audience participation shows, 244,299,349,441
Audience Research 1920-1926,91-92 19261933,140-141 1934-1941,205-207 1941-1945,246249 1945-1952,317-319 1952-1960,384-386 1962-1976,454-459 1977-1988,552-558 1977-2001.663-665 future, 729-732 Audimeter, 248, 318, 384, 553-555
Audio compact disc (CD), 491-493, see also Compact disc
Baby Snooks,192 Babylon 5, 620 Back Stage Wife, 183 Backe, JohnD.(CBS president), 421 Backyard satellite reception, 578-579
Baird, Hollis (AmericanTV inventor), 111 Baird, John Logie (Scottish TV inventor), 110, 111-112
Baker, Norman (broadcaster), 146
Baker, Russell (writer, host), 630
Baker, W.R.G. (GE engineer), 168,229
Bakker, Jim(televangelist), 558-559
Bakker, Tammy(televangelist), 558-559
Balance of trade, 586 Balkan conflict,655 Ball, Lucille (comedienne), 306,309-310
Ballots, counting,661 Bandwidth, 114,488,775-776, see alsoAllocation; Assignment; Federal Communications Commission; Spectrum space and entry in Appendix B
Bankruptcy, 702 Banks and the Poor, The, 427
Banzhaf, John (anti-smoking attorney), 430 Barn Dance country, 83 Barney and Friends, 629 BarneyMiller, 532, 537 Barron, Jerome (attorneywriter), 466, 737 Barrow report,509,591 Barrow, Roscoe (director,FCC Network Study),391 Bartlesville pay-TVtest, 354-355
Baseball, 355,546,651, see also Sports programming Basketball, 546,651, see also Sports programming Batman, 439 Batteries, 89, 9 1 Baffle of Newburgh, 449 Bay CityBlues, 532 Baywatch, 645 BBC, see British Broadcasting CompanylCorporation BBC World Service,657 BEA, see Broadcast Education Association Beavis and Butthead, 648, 649
Beat the Clock,312 Beef safety, 674 Beer, 524 Beetles, The (band),432 “Begathons,” 522,625-626, see also Public broadcasting Bell, Alexander Graham(telephone inventor, 1847-1922), 12
Bell (Telephone) Laboratories, 110-111
Bell System, 12, 75,411 Bell Telephone Hour, 346 BEM, see Business Executives Move for Peace in Vietnam Ben Casey, 440 Ben Stein’s MoneK Win, 639 Bendix, William(actor),309 Ben& Stephen Vincent (poet), 235
Benjamin Report,580 Bennett, Edward (early broadcaster), 64 Benny, Jack (comedian),129, 190,243,298
Benton, Sen. William (cofounder of advertising agency), 277,299
Subject Index
Benton & Bowles (advertising agency), 299 Berengaria, 112 Berg, Gertrude (writer,actress), 132,309
Bergen, Candice (actress), 646
Bergen, Edgar(ventriloquist), Berle,
187, 191, 209, 243, 298 Milton (comedian),297, 308 OperaHouse, 346 protocol,42,43 Wall,655 Chuck (rockstar), 369
Berlin Berlin Berlin Berry, BET, see Black Entertainment Television Beta (VCR) format, 410411, 490
Beta II format, 491 Beverly Hillbillies, 437 Beverly Hills90210,618,647 Bewitched, 437 Bias, 452 Bicycle network,291,361 Big Band Era, 182 Big Brother, 645 Big Show, 365 Bill CosbyShow, see also Cosby, Bill Bill Haleyand the Comets (band), 369 Bill Nye, 633 Biltmore Agreement,136,137, 193
Bing CrosbyEnterprises, 275 Biography, 621 Biography of a BookieJoint, 449
Bishop, Joey(host),441 “Blab-off,’’ 429 Black Entertainment Television (BET), 622 Black Journal,427 Black-and-white films,584 Black musicartists, 432 Blacklisting, 334-337, 396-397,458
Blackouts, local sports,338, 443
Blacks in network TV shows, 440
Blacks in television, 441 Blind Date, 244 Block, Martin [DJ),299 Blockbuster, 663 Blondie, 192 Bloomberg Financial News Network, 709 Blue Book (FCC report), 331-332
Blue Network (NBC) advertising income,178-179 Amos ‘n’Andy,132,134 creation of NBC, 117,119 Music Appreciation Hour, 130
WJZ, 68
BMI, see Broadcast Music, Incorporated Bob HopeShow, 310 Bochco, Steven(writerproducer), 532,639, 649,705, 722
Bonanza, 374-375,438 Book publishing, 476 Booknotes, 623 Boom box, 499 Boone, Richard(actor),375 Booster transmitters,330,389 Born Innocent case, 557,558 Boston Herald, 508 Boston Symphony Orchestra, 130
Bower, Robert (author), 456 Brainerd, Bertha [early broadcaster), 70 Branch Davidians(religious group), 656 Branly, fidouard (inventor),27 Branly-Lodge coherer, 36, see also Coherer Brant Rockstation, 3 1 Braun, Prof. Karl Ferdinand (inventor), 160 Braun tube, 160-161 Bravo (cable),621 Break the Bank,298 B r e w & Club, 365 Brice, Fanny,192 Bricker, Senator John,390, 391
Brinkley, David(NBC news anchor), 377,445, 543,724
Brinkley, Dr. John (“medical” broadcaster), 146 Bristol-Myers, 296-297 British, 48, see also Great Britain: United Kingdom British BroadcastingCompanyICorporation (BBC) 1926-1933
establishment and impact of radio, 101 licensing and regulationof radio, 150 1934-1941
news programming,194 1941-1945
radio broadcasting, 265
941
British Broadcasting(cont.) 1945-1952
postwar broadcasting, 339 1977-1988
electronic media changes, 585 1988-2001
changes in 21st century, 677
British Empire, 28-30 British Marconi,30.39, 41, 57, 61
(British)Royal Navy, 40,41 British series, 645 miniseries, 436 Broadcast Education Association (BEA), 398 Broadcast Music, Incorporated (BM), 214 Broadcast News, 537 Broadcast Ratings Council, 455
Broadcasters, first,44-47 Brokaw, Tom (NBCnews anchor), 541, 542-543,652,657
Brokenshire, Norman (newscaster), 196 Brooklyn Bridge,650 Brooks, Me1 (actor-writer-comedian), 609 Brothers, Joyce [psychologist), 376
Browsers, 789, see alsoInternet BskyB (DBS provider), 677 Buchenwald, liberationof, 240-241
Buckley, WilliamF.(writer, commentator),427 Budgets, 230 Buffalo Soldiers, 621 Buffy the Vampire Slayer,648 Bullard, Admiral WilliamH. G. (first FRC Chair), 57, 58,142
Bulletins, news,223-226, 230, 238-239, see also News Burch, Dean (FCCChair), 460 Burleson, A.S. (Postmaster General), 13 Burnett, Carol [comedienne), 436
Burns, Edd(actor),374 Burns, George (comedian),129, 309
Burns and Allen,309, 721 Bush, PresidentGeorge W., 661
Bush, President George,542, 550
942
Subject Index
Business Executives Move for Peace in Vietnam (BEM),466
C C &W,see Country and Western music CAB, see Cooperative Analysis of Broadcasting Cable 1945-1952
television heeze,330-331 1952-1960
expansion, 355-356 pay television, 281-282 pay television debate,354 1961-1976
changing technologies,410 expansion, 417 FCC regulation, 467470 station ownership,470 1977-1988
advertising, 524-525 audience penetration,551 basic distributorof television, 505-507 competition, 509,584 cross-ownership, 576 news programming,540 market entry/equityof treatment and regulation, 574-575 pay network ratings and audience changes, 556 programming, 515-517 signal scramblingand rights regulation, 577-579
sports programming,546 Videotex delivery, 494-495 1988-2001
broadcasting delivery, 596, 597
regulation, 672-673 stations and systems, 614-616
subscriptions and audience fragmentation, 664 broadcasting future, 700, 708-709
channels carried,620-621 characterization, 777-778 growth (1952-2000), 870-873
two-way and future predictions, 697 viewing share (1980-1999), 869
Cable Actof 1992,672-673 Cable Communications Policy Act of 1984,574 Cable modems,597 Cable networks 1977-1988,514-517 1988-2001.619-624
Cable News Network (W), see alsol h n e r , Ted cable programming services, 623
establishment andTed Turner, 508 evolution and broadcasting future, 708 Gulf War coverage, 728 news programming,516,538, 539,540,549,550
round the clock schedule, 507
T h e program and poison gas in Cambodia, 674 Cable News Network (CNN) Headline News,540, 623
Cable ready receivers,598 Cable rules, 462,468 Cable-Satellite PublicAffairs Network (C-SPAN) 1977-1988
cable programming,516 convention coverage and politics programming, 546,547,550
news programmingon ABC, 538 1988-2001
cable programming services, 623 political programming, 660
congressional gavel-to-gavel coverage, 740 Caesar, Sid (comedian),310, 609
Cairo Agreementof 1938,250 Call-in programs,6 Call letters, 69, 93, 229, 778
Cambodia, 656 Camcorders, 490,804 Camel News Camvan,312 campus riots 447,449 Canada cable systemand television production, 586 pay-television debate,355 radio, 102,149, 216 regulations for foreign imports, 477 21st century, 677
Canadian Broadcasting Corporation (CBC),400,401, 586,677
Cancellations, shows, 377,436 Canon 35 (canon 3A (7)of American Bar Assn. Code), 197 Cantor, Eddie(entertainer),83, 129
Cantril, Hadley (researcher), 206
Capital Cities-ABC merger, 510,
705
Capital Cloakroom,312 Captain Kangaroo, 375 Captain Midnight,191 Captain Video, 311 Captions, closed, 495496 Car Talk, 628 Carey, George(TV inventor), 110,580-581
Carlin, George (comedian) 580-581
Carnegie Commission on Educational Television Report, 424,425 Carnegie Commission onthe Future of Public Broadcasting Report, 517
Carnegie Endowment,123 Carnegie Foundation,424 Carrington, Elaine (soap opera writer), 183 Carson, Johnny(Tonight show host, 1962-1992), 308, 441,443,512
Carter, Boake (newscaster), 196
Carter, President Jimmy,453, 483,547,548
Cartridges, 802 Cartoon Network (cable),622 Cartoons, 376,618,637, 648-649
Caruso, Enrico (operasinger), 32 284, Cassette players,409
Castro, Fidel (Cubanruler), 379 Cat's whisker, 37 Cathode-ray tube,160 Catholic Hour, 138 CATV, see Community Antenna Television Cavett, Dick (talk show host), 441
CB, see Citizens Band radio CBC, see Canadian Broadcasting Corporation CBN, see Christian Broadcasting Network
Subject Index
CBS, see Columbia Broadcasting System CBS Evening News, 542 CBS Sunday Morning, 658 CCD, see Controlled capacitance discharge camera CD, see Compact disc CD-ROM, CD-basedread-onlymemory, 492-493 C. E. Hooper, see also Hooperratings, 205-206,247, 317
Cellular telephones,595 Censorship, 142,195,235-237, 258-259,332,587
Censorship, U.S. Office of, 226, 235-236,258-259
CFCF, 64 CFRB, 171 Chain broadcasting,FCC rules ABC network operations,420 investigations, 210,212, 259
network controlof dliates, 284
Supreme Court decision, 736
Chain BroadcastingReport, 210-212,259,392, 418 Challenger disaster, 544, 656
Chancellor, John(NBC anchor, VOA head), 444,445, 542
Changing TelevisionAudience in America, The, 553 Channel Four(U.K.),677 Channels additional and television freeze, 325-326 assignments, 327 definition, 778-779 expansion and cable systems, 615
Chaplin, Geraldine(actress), 621
Character generator,779 Charlie’s Angels, 536 Charlie McCarthy Show,see McCarthy Chases, high-speed,643 Chayevsky, Paddy(TV playwright), 373 Checkerboarding, 799 Cheerio, 138 Cheers, 537,646 Chicago Civic Opera,83,130 Chicago Hope, 645 Chicago opera83,130 Child abuse, 532 Child, Julia ( T V chef),426
Children broadcasting effects, 319, 338,730-731
decency legislation,670-672 programming 19341941,191-192 1945-1952,211 1952-1960,375-376 1977-1988,524,556558 1988-2001,623,647 television impact,385-386 viewing trends, 431,456, 457-459
Children’s Television Actof 1990,647,670
Children’s Television Workshop (CTW), 427, 530, see also Sesame Street China, 62 China Beach, 532,533 China Syndrome, The, 545 CHR, see Contemporary Hit Radio of Chretien, Jean (Premier Canada), 677 Christian Broadcasting Network [CBN), 516 Christian Science Monitor, 100,657 Chronicle, 543 Churn, 515
Cigarette advertising,429-430 Cigars, 431 Cinemascope, 399 Cinemax [cable),515,622 Cisco Kid, The, 311,374 Citizen’s groups Fairness Doctrine, 737 license-renewal case, 462463
self-regulation, 471-474 Citizens Band (CB) radio, 488, 772,780
City of Angels, 647 Civil rights movement,447, 744
Clark, Dick (music impres-
sario), 368, 372, 394
Clark-Hooper, Inc., 205 Clarke, ArthurC. (writer),5 Classical music, 83, 181-182, 346
Classification of stations, 143, 160,414
Clear Channel Communications, 669 Clear-channel stations, 170-171,204,414, 772,773 Climax, 373
943
Clinton, President William Jefferson, 657, 660, 661,695
Clio (advertising) awards, 429 Cliquot Club Eskimos,130 Clooney, George (actor),644, 645
Clooney, Rosemary(singer),645 Closed-captioning,495496, 598,794
Closed-circuit television, 785, see also Educational television; Publictelevision Clustered ad break,428, see also Advertising Clutter, 780 CNBC, 623 CNN, see Cable News Network Coats, George A. (promoter), 120
Coaxial cable,286,780-781 Coca, Imogene (comedienne), 306-307,310,609
Code 3,643 Code of Ethics, 147,213,332, 334,363,472,474
Code of WartimePractices, 258-259
Coherer, 27, 28, 801 Cohn, Roy (Sen. Joseph McCarthy aide), 380 Coincidental ratingsand Coincidental telephone technique, 205, 247-248,800
Cold Lazarus, 650 Collective identities, 744 College of the Air,123 Collingwood, Charles(CBS newsman), 237 Collins, Joan(actress),536 Collins, LeRoy (NAB head), 472
Colonial Network,174 Color reconstitution devices, 322
Color television audience penetration,551 CBS, 288 wide-band, 253-254,256 network programming,358 programming in 1961-1976, 434
receiver market, 384 standards and television freeze, 322-324 systems in competition for world adoption,476 viewing trends versus monochrome sets, 455
944
Subject Index
Columbia Broadcasting System (CBS) 1920-1926 origin, 68 1926-1933 creation, 120-122
depression radio advertising, 126,127 1934-1941
advertising income, 178-179
network domination,173 1941-1945
allocation conflict between television/FM, 253-255
audience research,248 FCC investigations, 211, 259
long-playing records, 272-273
news and programming, 237 1945-1952
expansion, 288, 289 shaping, 283-284 talent raids, 298 television freeze,322-323 1952-1960
network programming,358 regulatory confidence crises andUHF, 388 1961-1976
network operations, 421422
political bias and news programming, 449, 450
study trends,456 television impacton children, 459 1977-1988
network upheaval,511 news programming,542 rights regulation,579-580 1988-2001
network acquisition,617 news magazine programming, 658 sports entertainment,652 Westwood One,616 future television dominance,703, 704
Columbia Journalism Review, 474
Columbia Phonograph Broadcasting System (CPBS), 120 Columbia Phonograph Corporation, 120
Columbia Record Company,
Communications Actof 1978,
511,600 Columbia Workshop, 187,301, see also Corwin, Nor-
Communications Decency Act,
man Columbine High School shootings, 664-665 Columnists &reviewers100,
Communications Regulatory Commission, 564 Communications Satellite Corporation (COMSAT),
398
Combat, 439 Comcast (cable operator),614 Comedy Centml (cable),622 Comedy shows, 129,132,433, 534,see also Situation comedies Comic books,262 Command Performance,242 Commentators, 196,see also News Commerce, U.S. Department Of, 93-98,207 Commercial communication,11 Commercial-free radio,131 Commercial radio broadcasting, 116 Commercial shipping, 38 Commercials, 79, 519, see also Advertising Commercialism, 473 Commission on the Causes and Effects of Violence, 457
Committee hearings,547 Committee on Nationwide Television Audience Measurement (CONTAM),456 Committee to Reelect the President (CREEP),453 Common carrier, 564,565,780 Communication policy, longrange, 741 Communications early, 9-14 long-range and Marconi, 28 Communications Actof 1934 creation, 207-208 amendments and quiz showslpayola investigations, 396 Cable Communications Policy Act addition,574 congress and educational radio, 176 ethical code fromNAB, 213 licensing and FCC, 208 regulation in 1977-1988, 559 rewriting, 562-566 satisfactory definition, 734 Telecommunications Act of 1996,667
563-564 671-672
411,487
Communism, fallof,655, 687 Communist scare, 334-336, see also Blacklisting Community Antenna television (CATV),330,410, 467,576
Como, Perry (singer),242, 309 Compact disc (CD),489-490, 492,599,689,802
Compatibility, problems,322 Competition assuring in 21st century, 675 beginning, 351 future of broadcasting, 701 invention duplications and innovative technology, 687
pressures, 509-510 radio receivers,201-202 regulation, 575-577 scarcity and network dominance, 706 telephone, 12 television freeze,321 Compression, picturdsound, 16 CompuServe (Internet access), 676
Computer chip,688,697-697 Computers, 382, 594 COMSAT, see Communications Satellite Corporation Concentration camp, liberation, 240-241 Concerts, 130,631 Conduction, 2246,800 Congress Cigar Company, 121
Congress, seealso United States Houseof Representatives; United States Senate 1926-1933
radio licensing and regulation, 143-147 1934-1941
establishment of FCC, 207-208 1941-1945
allocation conflict between televisiodFM, 253 investigations of FCC, 260-261
Subject Index
Congress (cont.) 1952-1960
investigation of FCC, 392-393
quiz showsand payola investigations, 393-396 regulatory confidence crises and UHF, 389-391 1961-1976
ban of cigarette advertising, 430-431 funding for publictelevision, 424,425 hearings on televisionimpact and children,457 investigations linkedto viewer ratings, 455-456
investigations of CBS news programming, 450
satellite communication, 411
subscription television debate, 416-417,418 1977-1988
rethinking regulation, 559-560
rewriting the Communications Act of 1934, 562, 565
support of America-made HDTV, 498 19884001
attacks on FCC, 674-675 funding and public television, 631 high-definitioxddigital television, 605 price abuse and cable,615 sexually explicit material on cable, 672 future committees and faceless staff of FCC, 736 Fairness Doctrine,737 gavel-to-gavel coverage by C-SPAN, 740 persuasion and broadcast activists, 729 Connection, The,629 Conner, G.C. (early broadcaster),45 Conrad, Frank (engineer, founder of KDKA, 1874-1941), 45, 47, 65,66 Conservatives, regulation,559 Consolidation, 108, 614-615, 669
Constitutionality, Fairness Doctrine, 737 Consumer price index,826 Consumers, 409,582-585 Contact, 652 CONTAM, see Committee on Nationwide Television Audience Measurement Contemporary hit radio (CHR), 526
Context of broadcasting concept of mass communication, 6 early communication,6-7 early electrical communication, 9-14 new medium,14-16 rise of mass society,8-9 Continental Classroom, 361 Continental Network,357 Continental Radio Network, 285
Continuous wave (CW),33, 596
Control Data,553 Controlled capacitancedischarge (CCD) camera, 697,810
Controversial issues, 209, 213, 466, see also Editorializing, Fairness Doctrine Controversy cable television,505 public television, 520 radio, 213 television programming, 380,440,530
CONUS (Continental U.S. satellite provider), 539
Conventions, 452,549,550 Convergence, 718-719,781 Conversion, 383 Converter, W,352,383 Cook, Fred (author), 464-465 Cooke, Alistair (commentator, host), 426,630 Coolidge, President Calvin, 77-78
Coon Sanders’ Nighthawks, 83 Cooper, Gordon(astronaut), 446
Cooperative Analysisof Broadcasting (CAB), 140, 205,247
Co-ownership, 211, see also Ownership COPS, 635,643,722 Copycat, 533,665
945
Copyright, 469-470,577,578, 609,782-783
Copyright Royalty ’Ikibunal, 578
Coronation, 378-379 Corporate image,233434,244 Corporation for Public Broadcasting (CPB),424, 425426,496, 517-518 Corporations, 522, 626 Corrective ads,431, see
also Advertising Correll, CharlesJ. (co-creator of Amos ‘n’Andy),132, 134,298,309
Corwin, Norman (writerproducer-director), 187,235,301
Cosby, Bill (actor, comedian), 434,440,535
Costello, Frank(gangster), 312-313
costs above-versus below-the-line, 436
advertising, 295-296,364, 634
cable subscriptions,615 color programming,434-435 consumer and DBS broadcasting delivery,597 high-definition/digital television, 6 0 4 4 0 5 made-for-television movies, 437
magazine news programming, 658 operating and radio station ownership, 116 per episodeand television risks, 527-528 production for radio and television programs, 721 programming and network control, 178 satellite communications,487 Coughlin, CharlesE. (“radio priest”), 138, 199 Counteradvertising, 431, see also Advertising Counterattack, 336, see also Blacklisting Counterprogramming, 799 Country/Western (C&W) music, 370, 4 3 2 4 3 3 Court of Appeals for the District of Columbia Circuit, see United States Court of Appeals Court TV(cable), 622
946
Subject Index
Coverup, Watergate,451 Cowan, Louis (CBSexecutive), 376,421
Cowan, ThomasH.(early announcer), 81-82 Cox, Kenneth(FCC Commissioner), 460 Cox, Rep. Eugene,261 Cox investigation of FCC, 261 Cox Network, 460,614,620 Coy, Wayne (FCCChair), 320 CP, see Construction permit CPB, see Corporation for Public Television CPBS, see Columbia Phonograph Broadcasting Company cracker, 630,645 Creel Committee on Public Information, 259 CREEP, see Committee to Reelect the President Crime/detective shows,310, 374,439440
Criteria, licensing,142 Criticism, 731-733 Critics, 731-733 Cronkite, Walter AFTRA strike, 419 space race,446,448 television news programming 1961-1976,443,445 1977-1988,542 Vietnam War,449
Crookes, Sir William (experimenter), 160 Crosby, Bing(singer),130,274, 298
Crosby, John (critic),398 Crosby Research Foundation, 2
74 Crosley, Powel,Jr. (manufacturer), 171 Crosley radios,89-91,139
CTW, see Children’s Television Workshop Cuba missilecrisis, 216, 407 Culp, Robert(actor),440 Cultural programs,361 Cummings, Robert(actor),373 Current events, 521 CW, see Continous wave Czechoslovakia, 194
D DA, see Directional antenna DAB, see Digital audio broadcasting Daily life, ifthere wereno broadcasting, 743-744 Daley, Mayor Richard (Chicago),452 Dallas, 536 Daly, John (broadcast journalist, M.C.), 238,377 Damrosch, Walter (orchestra conductor), 130 Dance bands,82,182 Dancer-FitzgeraldSample advertising agency, 233
Daniels, Josephus (Secretaryof Navy, 1913-1921), 56 Dark Shadows, 441 Darrow, Clarence (defense attorney), 87 DARS, see Digital audio radio service DAT, see Digital audiotape recorders Dateline NBC, 658 David Sarnoff Research Center, 485
Davis Amendment,143-144, 145,170
Davis, Elmer (commentator, OWI head), 235 Davis, H.P. (Westinghouse Cross, Milton (early anexecutive), 65 nouncer), 82,130, 242 Davis, John W. (presidential Crossley, ArchibaldM. candidate 1924), 86 (founder of ratings Dawson’s Creek, 647 firm), 140 Dawson, Mimi (FCC CommisCrossley audienceratings, 206 sioner), 565 Cross-media ownership, 508, Day After, The, 530 576, 735, see797, also Day One,659 Ownership Days and Nights of Molly Crystal, Billy [comedian, Dodd, The, 536 actor),649 Daytime Emmy Awards,649, Crystal detector,37 see also Emmy Awards Crystal set, 36, 39, 59, 73, Daytimehighttime 89-91,801,817 programming C-SPAN, see Cable-Satellite AM radio and growth, 350 Public Affairs Network
Daytimehighttime (cont.) audience patterns,204 early television entertainment, 302, 303 interference, 115,170 news programming,444 radio (1927-1956), 844-848 scheduling and H D T V , 604 serials and declineof network radio, 299 talent raids, 299 talk shows,138 television (1949-ZOOO), 852-857
DBS, see Direct broadcast satellite D-Day, 238 De Forest Company, 32,102, 112
de Forest, Lee (inventor of Audion, triode vacuum tube, 1873-1961) electronic television,161 feedback circuit patent, 37-3
8
maritime wireless communications, 39 radio broadcasting,36 wireless telegraphy,32-33 Death ValleyDays, 135, 310, 373
Debates, political, 453 Declarations, 452, 548 Defenders, The, 440 Deintermixture, 388, 390,454 Delaying tactics, FCC, 738, 739 Democratic National Committee (DNC) fairness litigation, 466 Demographics, 526,607 Dempsey-Carpentier heavyweight fight,68,87 Department of Commerce, 93 Depression, 124-127, 155 Deregulation, see also Regulation: Reregulation broadcasting in 1988-2001, 666-675
DBS broadcasting, 597 cable, 505, 574,672 definition, 783 electronic media changes worldwide, 585 media cross-ownershipand Rupert Murdoch,508 rethinking regulation,560, 564,566
station ownershipshift, 500, 501
Telecommunications Actof 1996,669
Subject Index
Desert Storm (military operation), 656 Desilu productions,722 Detection, 36 Detroit News, 66 Detroit sound, 432 Developing nations,477 Dewey, N. Y.Gov. Thomas E. (presidential candidate, 1944, 1948), 240-241,313
Diagnosis Murder, 647 Dialing for Dollars, 441 Diana, Princessof Wales, 657 Diaries, ratings method,384, 385,800
Dick Van Dyke Show, The, 438, 609
Digital audio broadcasting (DAB),606 Digital audio radio service (DARS), 606 Digital audiotape(DAT) recorders, 493, 599, 689,802-803
Digital television(DTV) broadcasting delivery,601, 602,604
characterization, 784 revitalization of American electronics, 683 risk in acceptance, 695 signals and cable,673 Digital video disk(DM 601, ), 804
Digital/analog signals, 783 Dill, Sen. ClarenceC. (writer of radio legislation),208 Dimension X,365 Ding DongSchool, 311 Direct advertising,80, see also Advertising Direct broadcastingsatellite (DBS) broadcasting delivery 596 channel accessand audience bagmentation, 663 communication satellites in 21st century, 675 launching by STC,487 regulation, 571,573 signal scramblingand rights regulation, 579 Direct selling, see Selling Directional antenna (DA), 170, 350, 774, see also Antenna DirecTV (DBS), 597,663 Disaster, 637, 639, 679 Disc Jockeys(DJs), 299, 368-369,394
Discounting, 429 Discovery Channel (cable), Dish
622,623 antennas,596,773,806,
see also Antennas; Television ReceiveOnly antenna(TVRO) Disloyalty, 707 Disneyland, 357, 376 Disney Channel,623 Distance-speed relationship, 9 Distant signal importation,330 Distortion, 157 Divestiture, 13 DIVX, 601 DJs, see Disc Jockeys Dobbs, Michael,630 Dr. I. Q., 200 Dr. Kildare, 440 Dr. Who,439,529 Docudramas, 530,727 Documentaries, 358,449450, 520,542,543,727 Dodd, Sen. Thomas,457 Dolbear, Prof.Amos (telephone experimenter), 26
Doerfer, JohnC. (FCC Commissioner & Chair), 393, 395
Dole, Sen. Robert (presidential candidate, 1996), 453, 660
Domestic effect,99-100, 337-338
Don Lee Network, 173-174, 419
Don Quixote, 620 Donahue, Phil (host), 528 Donaldson, Sam (newscaster), 548
Donations, education television, 360-361, see also Funding Dorsey, Tommy (bandleader), 182
dot.com companies,607-608 Dotto, 376 Double or Nothing, 244 Douglas Edwards with the News, 312 Douglas, Mike(talk show host), 441 Downey, Morton Jr.(talk show host), 527 Downward compatibility, 695
Dragnet, 301,310,374 Drama format 1920-1926
programming and radio, 88
947
Drama format(cont.) 1926-1933
developing diversity, 132, 133,134,135 1941-1945 programming, 243-244 1945-1952 early television,310 radio programming,300, 301 1952-1960
television programming, 372,373 1961-1976
radio programming,433 television programming, 440 1977-1988
television programming, 531-532 1988-2001
television programming, 639442,644,647, 648
Drama Writers, suggestionsfor, 184-186
Drift, 74 Drive time,362 Drug abuse,532 DTV, see Digital television Dukakis, MA Gov. Michael (presidential candidate, 1988), 550 DuMont allocation conflict between television/FM, 255 FCC and Sixth Report and Order, 329 network demise,357 television network (1945-1952), 290
television receiver manufacture, 315,317 DuMont, Allen B. (inventor, engineer, TV network entrepreneur), 112, 290
Dun & Bradstreet, 553 Duncan, Robert(politician), 146
Dunlap, Onin E.Jr. (radio columnist, book author), 100 Dunne, Peter Finley (comic writer), 740 Dunwoody, H.H.C. (co-inventor of crystal detector), 37
Duopoly rule, 283,420 Duplication, AM-FM, 282, 295,301-302,687
948
Subject Index
DVD, see Digital video disk DX-ing, 784 Dynasty, 536
E E! The Entertainment Channel (cable),622 Early Birdsatellite, 411 Earphones 37,89 East Side, West Side, 440 Eastmest coast, competition, 704-705 Easy Aces, 301 Ebert, Roger (filmcritic), 521 EBS, see Emergency Broadcast System Echo satellite, 411 Echostar, 597 E-commerce, 789, see also Internet Economics, 434-436,527-529 Economic Studyof Standard Broadcasting, An,294 Ed Sullivan Show, 307-308, 364 Edison, Thomas (inventor, 1847-1931), 26 “Edison effect”,35,817 Editing, videotape,348-349, 805 Editorializing, 305-306, 322323,463467, 713,737-738 Editorials, 797, see also News Education by Radio, Advisory Committee on,123 Educational programming children and FCC policy, 556 during WWII, 232 postwar rebirth, 290-293 public television, 520 Educational radio, 78, 122-123,175-177 Educational television(Em) characterization, 785 first stations, 360-361 going public,423427 growth and future, 712-713 lobbying, 291 number broadcasting since 1941,827-828 programming, 292 television freeze,328-329 Edward Petry& Co., 125 Edwards, Anthony(actor),644 Edwards, Douglas(CBS anchor), 312,378,542 Edwards, Ralph, (MC.)312
Edwards, Webley (newsman), 237 EFP, see Electronic field production 8MK (Detroit), 66 8 XK (Pittsburgh), 65-66 Eisenhower, President Dwight D., 313-314,380 Eisenhower, Milton (university president), 457 Elections, see also Political programming 1920-1926.66 1926-1933,133,137-138 1934-1941.199 1941-1945,240-241 1945-1952,313-314 1961-1976,452453 1977-1988,548,549 1988-2001,659-660 Electric Company, The,427 Electric & Musical Industries Ltd. (EM), 112 Electrical communication, early, 9-14 Electrical manufacturing industry, 14 Electrical telegraph, see Telegraph Electrical transcription(ET), .log, 125,802 Electrolytic detector, 36 Electromagnet, 10 Electromagnetic energy, 784 Electromagnetic signals, 27 Electromagnetic spectrum, 819
Electromechanical programaudience analyzer, 248 Electronic field production (EFP), 498, 785 Electronic Industries Association, 89, see also Radio Manufacturers Assn. Electronic Media Ratings Council (EMRC), 556 Electronic media, 672, 685, 867-869 Electronic news gathering (ENG),444,453,498, 539,785 Electronic television, 160-168, see aZso Television Electronic Video Recording (EVR) system, 410 Electrostatic telephone, 26 Eleven o’Clock News, 537 Elizabeth R., 426 Ellerbee, Linda(journalist), 540
Elmo Roper survey, 396 Elvis Meets Nixon, 619 Elwell, Cyril (Federal Telegraph Co. founder), 33 Emergencies, radio,87 Emergency Broadcast System (EBS), 784 Emergency!, 643 Emerson Radio, 139,201 Emmy Awards, 306,512,649 Empire Builders, 134-135 Empire Service (BBC), 150 Empire State Building, 157, 158
Employment, 874-875 equal, 466 EMRC, see Electronic Media Ratings Council ENG,see Electronic newsgathering equipment English Channel(cable),11 Enhanced underwriting, 522, 626, see also Underwriting Entrepreneurs, 694 EP, see Extended play records Equal time requirement, 564, 737 Equity Principle, 564,571-577 ER, 644,645,646 Errors, advertising, 431, see also Advertising Ervin, Sen. Sam,451 ESPN (cable),545,623, 651 ET, see Electrical transcription Ether, 25-26 Ethical problems, 393 Ethnic minorities,440 Ethnic music, 433 ETV, see Educational television Europe, 102,150,399-400,745 European Broadcasting Union, 400
Eurovision, 400 Evangelists, 558 Evans, Linda (actress),536 Evening Magazine, 543 Evening, see Daytimelnighttime pr0gr-g Eveready Hour, 83 Evergreen features, 654 Everson, George (Farnsworth backer), 161 Evolution, broadcasting, 358, 683-686 EVR, see Electronic Video Recording Excess profits tax (World War II), 232-234 Excise tax,389,390,401
Subject Index
Exit polls, 661, see also Elections; Political programming Expansion radio broadcasting,168-172 regulation 1945-1948,319-321
Petrillo affair continuation, 333-334 public service responsibility, 331-333 self-regulation and blacklisting, 334-336 Sixth Reportand Order, 329-331
television freeze: Expert
Fashions, 744 Fast motion,16 Father Knows Best, 535 Faulk, John Henry (blacklisting victim), 397 FBIin Peace and War,The, 243 FBIS, see Foreign Broadcast Intelligence Service FCC, see Federal Communication Commission Featherbedding, 257 Federal Aeronautics Administration (FAA),740 Federal CommunicationsCommission (FCC) 1934-1941
creation, 207-208 decisions and electronic television, 164-168 monopoly investigations,
1948-1952,321-329 participants,376, see
also Quiz shows Extended play (EP) records,273 Eye to Eye with Connie Chung,
210-212
music licensingbattle, 213 program cleanup,208-210 self-regulation, 212-213 station classification system 170 status of F M radio, 158,
659
F FAA, see Federal Aeronautics Administration Facsimile systems,113,160,
159-160 1941-1945
freeze on electronic production and radio stations, 228 silencing amateur radio and war, 225
785-786
Fads, 744 FAE, see Fund for Adult Education and Fund for the Advancement of Education Failure, radio, 71, 74 Fairness Doctrine cigarette advertising,
1945-1952
ABC merger withUPT, 288
advertising and AM radio stations, 294 allocation conflict between televisionlFM,
429-431
deregulation and Telecommunications Act of 1996,669-670
250-256
FCC policy decisions,5,
educational programming, 291-292
463467
policy debate and demise, 737-738
public service responsibility, 333
regulation, 564,567-569 Falcon Crest, 536 Falwell, Rev. Jerry,558 Family Channel(cable), 620-621
Family nes, 650 Family viewing time,459, 472473,731,799
Fantasia, 156 Fantasylsland, 536 Farm listeners, 140 Farnsworth, Phi10 T. ( T V inventor),161-164
,
pay-television, 281-282 postwar expansionldeclineFM, of 277-278 public service and broadcast licensees, 331-333
spectrum allocation for television, 319 split-up of NBC, 231 technical standardsand AM postwar expansion, 276 television freeze,321-331 television regulation,229, 230
wartime investigations, 259-261
949
Federal Communications(cont.) 1952-1960
FM and stereolmultiplexing technology, 347-348
NBC-Westinghouse swap, 359-360
quiz shows and payola investigations, 393-396 pay-television debate, 354-355
regulatory confidence crises and UHF, 387-391 1961-1976
ABC-ITT merger,420 cable regulation,467-470 changing regulators, 459-463
cigarette advertising,430 Fairness Doctrine, 463-467
FM assignment structure, 414
freeze onAM stations, 413 and Hoover Commission, 461
pattern of network operation, 418 political debates, 453 satellite communication, 411,487
self-regulation and citizen action, 4 7 1 4 7 4 separate programming on AM-FM stations, 433
station ownership, 470471
subscription television standards, 416-417 television assignment and expansion, 415-416 1977-1988
children’s viewing andtelevision programming, 556557
cross-ownership rule, 508 funding for publictelevision, 522 low-power television system development, 503-504
Presidential debates and politics programming, 548
regulating competition, 575-577
rethinking regulation, 559-575
rights regulation,580-581
950
Subject Index
Federal Communications(cont.) technical standards for AM stereo radio,499 trafficking rule and station ownership shift, 500 1988-2001
attacks from Congress, 674-675
decency legislation, 670-672
deregulation, 612 digital radio delivery,606 H D T V , 604,614 regulation, 666-667
tier rates and cable regulation, 672-673 future digital television standardshles, 684 Fairness Doctrine, 737-738
frequency allocation,771 persuasion and broadcast activists, 729 planning ahead, 741 reluctance to regulate, 734735,737 stamp of approval and
public acceptance,691 station licensing,698 Telecommunications Act of 1996,667-670 Federal grants,423,424-426 Federal Radio Commission (FRC) clearing interference, 143-145
decline of educational AM radio, 122-123 depression in radio advertising, 126,127 establishment of television standards, 114 radio broadcasting regulations, 115-116 regulation role, 141-143 replaced by FCC, 208 Federal Telegraph Company, 34, 40, 60, 61, 62
Federal Theater Program, 199 Federal llade Commission (FTC),76, 393, 429431,556557
Fees, 515-516 Felicity, 647 Ferraro, Rep. Geraldine (V. P. candidate, 1984), 548 Ferris, Charles (FCC Chair), 560 Fessenden, Reginald (wireless inventor, first broadcast), 30-32, 44
Fessenden Alternator, 34 Feynman, Richard(physicist), 545
Fibber McGee and Molly, 135, 243
Field sequential,814 Field, Cyrus (transAtlantic cable entrepreneur),11 Fields, W. C. (actor, comedian), 191
50-Market rule, 470 Filler show, 308 Film chain, 274 Film, 370,423, see also Motion pictures Find Cut, The,630 Financial control, networks, 418
Financial crisis, public television, 518,521-522 Financial support, 74-75, 79-80 Financing, 299 Finder, The, 521,631
Fireside Chats (PresF. D. Roosevelt), 155,196 Firing Line, 427 First Amendment rights, 635 First Lineof Defense, 244 First-run syndications,528 Fisher (hi-fi manufacturer), 274
Five o’clock Follies, 449 Fleishmann Yeast, 128 Fleming, JohnAmbrose riventor, diode vacuum tube), 34, 50,59, 189-190
Fleming patents,49 Fleming valve,36,59 Florida, 524, 661 Fly, James Lawrence(FCC Chair), 167, 211, 255, 259-261,460,566
FM (frequency modulation) 1934-1941
early demonstrations, 158-160
invention by Armstrong, 156158 use, 156 1941-1945
allocation conflict versus television, 249-256 pioneering efforts,229 use by military, 227 1945-1952
additional channelsand television freeze,325 decline in manufacturing, 314-315
FM (cont.) educational programming, 290-291
expansioddecline, 276278
fine musicand duplication, 301-302 high fidelity broadcasting, 274
income versusAM radio, 294-295
receiver cost, 382-383 1952-1960
adjustment to age of television, 350-351 advertising revenue,362 comparison withUHF television, 352-353 networks, 357 stereo technology,347 1961-1976
advertising revenue,428 automation technology,409 expansion, 4 1 2 4 1 5 saturation, 454 1977-1988
expansion, 501-502 regulation, 572 1988-2001
stations and systems, 611 band characterization,819 competition and broadcasting future, 701 Edwin Armstrong,37 number broadcasting (since 1941), 827-828
Fogarty, Joseph(FCC Commissioner), 565 Folk music, 370 Fontana, Tom (TV writer), 649 Food Lion grocery chain, 673474
Food manufacturers, 183 Football, 441,442,443, 545, 546, see also Sports pr0gr-g Ford Foundation, 360,423424 Ford, President Gerald,446, 453,547
Foreign Broadcast Intelligence (later, Information) Service (FBIS),264 Foreign import programs,477 Foreign language broadcasting, 258-259
Foreign rights,527 Formula radio,see Top-40 programming Forrest Gump, 602 Forsyte Saga, The, 426 Forsythe, John(actor),536
Subject Index
Four-channel broadcasting, 410
Fowler, Mark (FCC Chair) competition in broadcasting, 510
regulation, 559,560, 565,
Funding inventions, 690 public broadcasting,423, 424426,624, 625427,713-714 Fundraising, 522
567-568,570,576
Fox Network broadcasting future, 703, 704 creation, 508 network acquisition,618 network upheaval,512 news and cable conflict, 615-616
news magazine programming, 659 NFL games, 651 programming needs,503 France, 150,585-586 Frankenheimer, John(TV producer-writer), 373 Fmsier, 646 Frawley, William (actor, comedian), 306,310 FRC, see Federal Radio Commission “Fred the Dunkin Donuts Baker,’’ 634 Freed, Alan (DJ),368,369,394 Freed-Eismann Neutrodyne radio receiver, 9 1 Freedman, Albert (quiz show producer), 395 Freedom of Information Act, 740
Freelancers, 613 Freeze, licensing,413, 771, see also Television freeze French Chef. The,426 Frequency assignments,94,95, 96, see also Allocation; Assignments Frequency modulation, seeFM Fresh Air,628 Friendly, Fred(CBS news producer, head),378, 380
Friendly Giant, The,427 Friends, 619,646 “Frit0 Bandito” commercial, 440
Frontline, 520,543, 631 FTC, see Federal Trade Commission Full-motion video,786, 790, see also Internet Fund for Adult Education (FAE),360 Fund forthe Advancement of Education (FAE),360
G Gabor, Eva(actress),438 Galvanometer, 26, 801 Game shows, 441 Gangbusters, 191, 656 Gannett newspaper chain, 382-383
Geller, Henry (government official), 430 Garroway, Dave(TVhost), 308 Garroway at Large, 308 Gates, Bill,610, see also Microsoft GE, see General Electric Gelbart, Larry (producer-script writer), 534, 609 Gemini (spacecraft) recovery, 446
Gender, 622 General Electric(GE) Alexanderson alternator,34, 35
alternator supplier for Fessenden, 30 British Marconiand establishment of RCA, 57 demonstration of FM radios, 159
formation and electrical manufacturing, 14 M C , 117,512,706 patent pooling agreement, 59, 60-61, 62, 63
pioneering stationWGY, 68 RCA consolidation effects, 108
television network acquisition, 617-618 television programming, 230 General Foods, 233 General Post Office(U.K.), 101 Genre programming,622 Geographic apportionment, 326327
Geographical position indicator (GPI),666 Geostationary communications satellite, 586-587, 688 Gerbner, George (academic researcher), 459 German international radio broadcasting, 264
951
Germany, 40,48,150,339 Get Smart, 439 Getty Oil, 577 Gillars, Mildred [“Axis Sally,” propogandist), 264 Gillette, 296 Gilligan’sIsland, 530 Gimbel Brothers department store, 74, 80, 90-91 Gleason, Jackie (comedian), 398 Glenn, John (astronaut and senator), 446 Glenn L. Martin Co., see Stratovision Global positioning system,595 Glover, Danny,621 Godfrey, Arthur “Red,” ( M C , talk showhost), 129, 239,242,308
Goebbels, Dr. Joseph (Nazi propaganda chief),264 Goldbergs, Riseofthe, 132 Goldbergs, The, 305,309 Golden Girls, 532-533 Golden oldies, 526 Golden West Broadcasters, 501 Goldenson, Leonard(ABC Chairman),421,510 Goldmark, PeterC. (engineer, inventor), 272 Goldsmith, Alfred (inventor, early broadcaster),45 Goldsmith, ThomasT. (DuMont engineer), 290
Goldwater, Sen. Barry(presidential candidate, 1964), 452,464
Golf, 546,651 Golf Channel (cable),622 Gomer Pyle U.S. M. C., 437 Gone With the Wind, 156 Gonzalez, Elian (newssubject), 655
Good Morning,America, 529 Good Morning Beantown, 538 Goodman, Benny (band leader) 182,242
Goodrich Silvertown Orchestra, 130 Gore, VicePresident Al,661 Gosden, FreemanF. (co-creator of Amos In‘Andy), 132,134,298,309
Gould, Jack(critic),398 Gould, Jay (financial manipulator), 12 Government, seealso Individual entries attempted controlof wireless, 56-57
952
Subject Index
Government (cont.) control of radio outsidethe United States, 216 innovative technology,691, 694
-media struggle and television news,450-451 patriotic programming, 236 GPI, see Geographical Position Indicator Graham, Billy (evangelist],345 Grammy Awards,649 Grand Alliance (HDTV), 603 Great American Dream Machine, The,427 Great Britain, 101,111-112, 150,399, see also United Kingdom Great Debates,380-382 Great Gildersleeve, The,243 Great Lakes (Naval)llaining Station,64 Great White Fleet,40-41 Green Acres, 437 Green, E. H. R. (station financial supporter), 77 Green Hornet, The, 192,439 Greene, Harold(federaljudge), 485-486
Greene, Lome(actor),375 Greenfield, Jeff (commentator), 657
Grenada invasion,544 Grid, 36 Griffin, Mew (talk show host), 441,528
Grigsby-Grunow (radio manufacturer),139 Gross, Ben (critic),100 Grossman, Larry(NBC news president, later PBS), 521,543
Group ownership,470,698 Group W (Westinghouse Broadcasting Co.),68 GuidingLight, The, 183 Gunsmoke, 366,374,438
Hare, Ernie(song & patter man), 83,86 Hargis, Billy James (televangelist), 464-465 Harris, Rep. Oren, 392 Hart, Sen. Gary,549,559 Harvest of Shame, 449 Hauptmann, Bruno Richard (Lindburgh baby kidnapper), 197 Have Gun-Will Travel, 375 Hawaiian Eye, 374 Hayes, Helen (actress),187 HBO, see Home Box Office (cable) Head, SydneyW. (scholar),423 Hear ItNow, 379 Heatter, Gabriel (newscaster), 196,312
Heidi, 442 Helen 'IYent,see Romance of Helen Trent Helical scanVTR, see Videotape recording Helms, Sen. Jesse,559 Henderson, Skitch (band leader), 441 Hennock, Frieda (FCC Commissioner], 291-292, 328-329
Henry Aldrich,192 Henry, E. William (FCC Commissioner & Chair), 460
Herald naveler, 470-471 Herbert v. Land0 case, 579-580 Hercules: The Legendary Journals,645 Herrold, Charles David (broadcasting innovator),15, 45, 46, 63
Hertz, Heinrich(physicist),27 Hertzian waves,27 Hetrodyne receiver,37 Hewitt, Don (60Minutes producer), 658 Hicks, George (reporter),227, 238
High fidelity,109, 274, 409,
H
501-502
High-definition television H. H. Scott (hi-fimanufacturer), 274
Hageman, Larry(actor),536 Hale-Bopp comet, 656 Haley, Alex(writer),436 Hall, Wendell(entertainer),83 Ham radio operators,44, 48, 100
Harding, President WarrenG., 66. 77
(HDTVl bandwidth requirement, 775
broadcasting delivery, 602-606
characterization, 787 competing forthe consumer, 584
government role,691 risk in acceptance, 695
High-definition (cont.) technical standards,496-498, 571,594,603
Hijacking, 544,679 Hill Street Blues,529,531, 532,639,640,723
Hill, EdwinC. (newscaster),312 Hilliard, Harriet (singer, actress),243 Hindenburg disaster, 195-196 Hiss, Alger (convictedof Puriuru), 449 History Channel(cable),622 Hit the Jackpot,298 Hitchcock, Alfred(film director), 374 Hitler, Adolph (German Nazi dictator), 194 Hockenberry, John(reporteranchor), 628 Hockey, 546, see also Sports programming Hoffa, Portland (comedienne), 190
Hogan, JohnV. L. (inventor broadcaster), 9 1 Hogan's Heroes, 439 Hollywood Squares, 441 Holocaust, 530 Home, 441 Home and Garden Channel (cable),622 Home Box Office(HBO) (cable), 412,515,577,622,709
Home receivers, 110 Home Shopping Network (HSN),505,525,623 Home TestInstitute, 385 Home video systems,410 Homemade receivers, 8 9 , 9 1 Hom'cide: Life on the Streets, 622,641
Homosexuality, 532 Hooks, Benjamin(FCC Commissioner), 461,474 Hooper, C. E. (audience ratings researcher), 205-206, 247,317
Hooper, Cdr. Stanley ("Father" of U.S. Navy radio), 57 Hooperratings, 247,318 Hoover, President Herbert (Secretary of Commerce, 1923-19291, 93-98,110,137-138
Hoover-Smith campaign,137 Hoover v. Intercity Radiocase, 96
Hop Harrigan, 191-192 Hopalong Cassidy, 311,374, 375
Subject Index
Hope, Bob (comedian), 183, 298,310 Hot 1 Baltimore, 438 House of Cards, 630
House of Representatives, see Congress House Un-American Activities Committee, 336, see also Blacklisting Housman, John (actor-director), 483
How toTalk Backto Your Television Set, 461 Howard, Leslie(actor),187 Howdy Doody,311 HSN, see Home Shopping Network Hubbard, Gardner (telephone entrepreneur), 12 Hubbard, Stanley (news network provider,see CONUS), 539 Hubbard Broadcasting,487 Hughes, Howard (recluse billionaire), 422 Hughes manufacturing,597 Hughes Sports Network,422 Human-interest programs,200 Hummert, Frankand Anne (soap operawriters), 183
Humor, advertising,634, see also Advertising Humphrey, Sen. Hubert (presidential candidate, 1968), 452
Hungarian crisis, 380 Huntley, Chet(NBC anchor), 377,443,444,724
Hyde, Rose1 (FCC Commissioner and Chair),460
I ILove a Mystev, 191 ILove Lucy, 306,309-310,373, 401
I Spy, 440 I've Got a Secret, 311,312
Iconoscope, 161,810 Image dissector,163 Image orthicon(IO) camera tube, 231, 274, 810 Impeachment trial (Pres. Clinton), 657 Imports, 551-552 Imus, Don (DJ),612,637 In the Matterof Editorializing by Broadcast Licensees. 331-333
In the Nameof God's Poor,620 Indecent programming,16, 672,727-728.741
Independence Day,596, see also Morse Code Independent Broadcasting Authority (U.K.), 585 Independent stations, 502-503, 523
Independent Television Association (INTV), 502 Independent Television Authority (ITA) (U.K.), 400
Induction, 22-26,800 Industrial video, 293 Informal Engineering Conference (FCC), 164 Information channels,623 Information, Please!, 200 Infotainment, 654,661, 725, 727,782
Infringement of copyright, 782, see alsoCopyright Inner Sanctum, 243 Innovation defined,2 1 In-school broadcasting,177, see alsoEducational broadcasting Instant analysis,450 Instant replay, 441, see also Sports programming Institute for Education by Radio, 176 Institutional advertising,80, see alsoAdvertising Instruction television fixedservice (ITFS),504 Instructional television(ITV), 361,785
Integrated circuits, 408 INTELSAT, see International Telecommunications Satellite Corporation Interactive cable systems,778, see alsoCable Interconnection, network,68, 7677,286-287, 411412,486
Interdepartment Radio Advisory Committee (RAC), 250,560 allocation conflict between televisionlFh4, 250-256
changing regulators,462 Interference clearing and government regulation, 143-145 co-channel spacingand television, 320, 321
953
Interference (cont.) definition, 771 lessening and FCC, 115 low-power television system, 503 minimizing and radio expansion, 170-171 postwar expansionof AM, 276
regulation of early radio,93, 94
tropospheric and television freeze, 324-325 wireless communications, 41,43
Interlaced scanning,604 Interlochen Music Camp,257 Intermixture, 329-330,352, 387,388,415416,454
International agreements,11, 4143,149-150,216, 338
International Consultative Committee for Radio (CCIR) (ITU), 571 International co-productions, 528-529
International distress call (SOS), 42
International News Services (INS), 136,193
International radio conferences, 149 International Radio Telegraph Company, 59,60 International Radio Television Organization (OIRT), 400
International Telecommunications Satellite Corporation (INTELSAT), 411
International Telecommunications Union (ITU),11, 586,676,788
International Telegraph Convention, 11 International Telephoneand Telegraph (ITT), 420 Internet access and cellular telephones, 595 audience hagmentation,664 broadcasting delivery, 598-599,606-608
characterization, 788-790 future, 675,684,697, 710, 716
government role,691 Interstate Commerce Commission, 207
954
Subject Index
Intervision, 400 INTV, see Independent Television Association Invaders, The,439 Invation fromMars, The, 187-190
Invention, 22-23,686-687, 689490,790-791
Inventors, 21-38,110-113, 160-165,689-690
Investigations, 385 IO, see Image orthicon camera tube IRAC, see Interdepartmental Radio Advisory Committee Iran-Contra hearings,547 Iridium system,595 Ironside, 440 Islamic Shiite revolution,544 Isolation booths,376,377,see also Quiz shows It Pays to be Ignorant, 244 ITA, see Independent Television Authority Italian-Americans, negative Images, 449,473474 ITFS, see Instruction television fixed-service I’IT, see International Telephone and Telegraph ITU, see International Telecommunication Union ITV, see Instructional television Ives, Herbert(AT&TTV researcher), 110
Jeopardy, 528,543,724 Jewel inthe Crown, The, 521 Johnny Carson Show (Tonight Show with Johnny Carson),529 Johnson, Nicholas(FCC Commissioner), 460,461, 735
Johnson, President Lyndon B., 424,425,449,452,457
476,496,605
JCET, see Joint Committee on Educational Television Jeffersons, The,438 Jenkins, Charles Francis( T V inventor), 110,112, 113
Jennings, Peter(ABC anchor), 540,541,652,657
650,705
Kellogg Foundation, 291 Kennedy, JohnF., Jr., 657 Kennedy, President John F. 1961-1963,314, 380-382,407,444
Kennedy, Sen. EdwardM., 508 Kennedy, Sen. Robert,446 Kennedy assassinations,407,
Johnson, Sen. Edwin, 328,329,
444,446
Kennedy-Nixon debates,
330
Joint Committeeon Educational Television (JCET),292 Joint Operating Agreements,
380-382
Kent State Univ.protests, 447, 449
Kerker, William (journalist), 195
583
Jolson, A1 (entertainer),83, 129 Jones, Billy [song& patter man), 83,86 Jones, Jennie(talk show MC), 649
Jordan, Max (radio journalist), 194
Joseph Horne Company,65 Journalism, 312-313,378-379, 535,744,see also News programming Journalistic access,740 Journalistic quality,653 Joyce, William [Nazi propagandist), 264 Judson Radio Program Corporation, 120,121 Judson, Arthur (founder of what became CBS), 120,122
Julia, 440 Juvenile delinquency,386,457
J Jack Armstrong-TheAllAmerican Boy, 191 Jack Benny Show, 538 Jackson, Rev. Jesse (presidential candidate), 549 James, Harry (bandleader), 242 Jane W p a n Theater, 373 Jansen, David [actor),374 Japan, 216,338-339,400,454,
Kelley, DavidE. ( T V writer),
K K calls, 69 KADS (Los Angeles),428 Kaiser Broadcasting,422 Kaltenborn, H.V. (commentator), 87, 135, 194, 238
Karaoke, 650 Kay Kyser’s Kollege ofMusical Knowledge, 200 KCBS, 45 KCET, 360 KDKA, 64-65,77,86,87
Keeshan, Bob (“Captain Kangaroo”), 375 Kefauver, Sen. Estes,308, 312-313,386,457
Keillor, Garrison(writer,entertainer), 519
Keystone Broadcasting System, 231
KG0 (Oakland), 68 Khomeini, Ayatollah, 543 Khrushchev, Nikita (Soviet leader), 379 Kickbacks, 451 Kieretsu, 685-686 Kinescope, 275, 348,609,803 King, Larry(talk show host), 657,660
King, Rev.Martin Luther (civil rights leader), 446, 447
King’s Henchman, The,121 Kingston MO(musical group), 370
Kintner, SamuelM. (Westinghouse president),59 Kits, television, 315 KMOX-TV [St. Louis),511 Knight-Ridder newspaper chain, 495 Knots Landing, 536 KOA (Denver),68 Koch, Howard [radio writerproducer), 187 Kojak, 439,557 Koppel, Ted [ABC anchor), 540, 541,542,652, 659 Korean War,336,534
196,
Korn, Arthur (TV-facsimile experimenter), 113 Kosovo, 656 Kovacs, Ernie (comedian),438 KQW, 45,46,63,64, see also Herrold KRAB Nebula, 474 Kraft Theater, 310, 373 KTHE (Los Angeles),360 KTLA (Los Angeles), 500,655 KUHT [Houston), 360 Kukla, Fran, and Ollie, 311
Subject Index
Kuralt, Charles(CBS news commentator), 658-659
KYW (Chicago,later Philadel-
phia), 68, 83, 84-85
Lewis, Jerry (comedian),308, 405
Lewis-Conn heavyweight fight, 286 Libel, 579-580 Liberty Broadcasting System, 285-286
L L.A. Low, 532,641 Eil Abner, 192 La Salle, Eriq (actor),644 Lafount, Harold(FRC Commissioner), 128 Lamb, Brian (headof C-SPAN, interviewer), 623 Lancaster, Burt (actor),431 Land telegraphy,11 Landau, Sonia(CPB Chair), 518 Landis, K. M. (judge), 461 Lando, Barry (news producer), 579-580
Landon, Alfred (presidential candidate, 1936), 197 Language, 637, 745 Laser, 487, 961 Laser videodisc, 601 Latin America,102,399,477 Laughter on the 23rd Floor, 609 Law b Order, 641 Lawrence, David (commentator), 135 Lawrence Welk show,347 Lazarsfeld, PaulF. (researcher), 206
Lea Act, 257,333 League of Women Voters,548 Lear, Norman (writer-producer), 438, 558, 722 Learning Channel, The[cable), 622,623
Leave it to Beaver, 530 Leblanc, Maurice (proposed TV scanning), 110 Ledwig, Donald (CPBpresident), 518 Legislation, broadcasting, see specific acts: Congress 632 Lehrer, Jim (PBS anchor), Leno, Jay(host,comic), 442,650 Let’s Make a Deal,441 Let’s Take a ?hp, 631 Lever Brothers,233 Levy, Dr. Leon (CBSbacker), 120,121
Lewinsky, Monica (subjectof F’res. Clinton’s impeachment), 657, 661
Lewis, Fulton,Jr. [commentator), 312
Libyan-American attacks, 544 Licenses/licensing, stations challenges and broadcasting future, 675 Congress, 739 definition and characterization, 771 FCC power, 142,143, 462463,466,470 FM radio, 160
program servicesas side line, 69, 70 regulation, 564, 572 renewal duringW w n , 228 Telecommunications Actof 1996,667-668,670 Liebman, Max,609 Life magazine, 475,583 Life ofRiley, The, 243, 309 Lifestyles of the Rich and Famous, 543 Lifetime Channel,(cable),622 Lights Out, 301
Limbaugh, Rush(talk show host), 638,660 Lindbergh, Charles(aviator), 136
Lindbergh baby kidnapping, 136,196,197
Lineup, The, 439 Liquor, 634-635 List brokers,627 Listening habits, 205 Listener supportedstations, see also Educational and public broadcasting Lithgow, John (actor),639 Little Orphan Annie,135 Little Red Schoolhouse,78 Live Aidconcert, 531,558 Live broadcasts elimination, 434,435 mistakes, 370 news programming,194, 433,474,585-586,
237,444
Peter Pan,371-372 Livingstone, Mary (comedienne), 190 Lloyds of London, 39 Lobbying, 524,738-740 Local advertising,362, see also Advertising Local content, 703
955
Local news,725, see alsoNews programming Local programming,303,419, see also Programming Local radiostations, 126-130, 180-183.193, 199400,243, 275-276.202-305, 367-370,698-703
Local televisionstations, 140-141,426,615, 702 Localism, 611,612,675,699 Lodge, Sen. Henry Cabot,314
Lodge, Sir Oliver(scientist), 27, 28, 38
Loevinger, Lee (FCC Commissioner), 461 Logwood, C.V. (early broadcaster),45 Lombardo, Guy (bandleader), 441
London After Dark,195 Lone Ranger, The,135,192, 311,433
Lonesome Dove,529 Long-distance communication, 12-13,411, see also American Telephone and Telegraph Long, Sen. Huey, 199 Long-playing [LP) records, 272-273,802
Look magazine, 475 Loomis, Mahlon (inventor), 23-24
Lopez, Vincent (bandleader), 82-83
“Lord Haw Haw” (Axis propagandist), 264 LorenzoJones, 193, 366 Lorimar Telepictures,501,722 Lost and Found Sound,609 Lost in Space, 439 Lotteries, 504,771 Lou Grant, 535
Louchheim, JeromeH.(CBS backer), 121 Loudspeakers, radio, 139 Louis-Conn heavyweight fight, 296
Love Boat, 537 Low-band transmission,277 Low-power FM (LPFM),612, 701,792
Low-power television(LPTV) broadcasting future, 701 characterization, 792 development, 503 electronic media delivery, 488
956
Subject Index
Low-power television(cont.) niche serviceand cable networks, 514 regulation, 573 LP, see Long-playing records LPFM, see Low-power F M LPTV, see Low-power television stations Lucas, George (movie maker),
Majestic Theater: ”bo Black crows, 129 Major, John (BritishPrime Minister), 677 Major Bowes and His Original Amateur Hour, 182 Make-Believe Ballroom, 299 Making of the President:1960, 450
Man from U.N.C.L.E.,The,
602
Lucile Ball Show, 720 Lucy Show, The, 408 Lurtsema, RobertJ. (music commentator), 520 Lux Radio Theater,187 Lynch, David(writerproducer), 649
439
Managerialism, 613 Mandela, Nelson [South AMcan leader), 512 Mankiewicz, Frank (NF’R president), 518 Man-on-the-Street interviews, 200
Manufacturing, 8, 76,89-90,
M M*A*S*H, 533,536535,609, 647,723
Ma Perkins, 132,243,247,366 Macarthur, Gen. Douglas,223, 312
MacBride, Sean(UNESCO Commissioner), 587 MacDonald, Rep. Tolbert,463 Mack, Richard(FCC Commissioner), 392-393 Mack, Ted (M.C.), 182,308 MacNamee, Graham (early announcer), 238 MacNeil, Robert (PBSnews anchor), 632 MacNeil/Lehrer Newshour, 520,538
MacNeiULehrer Report, The, 632
Made for television movies, 437,620
“Madge the Manicurist” (advertising character), 634 Magazine concept, advertising, 400, 716717, see also Advertising Magazine shows,657-659 Magazines, 398,475,583,745 Magnavox, 491 Magnetic detector,36 Magnetic tape recorder,227, 275,291,694 Magnetophone, 227-228 Magnifiers, 315
Magnuson, Sen. Warren, 390-391
Maher, Bill (talk show hostpolitical commentary), 659
595,687
March of rime, 135,138 Marconi, Guglielmo (inventor), 28-30,38
Marcus Welby,M. D., 440 Mare Island Navy base, 44 Maritime disasters, 38 Market entry, 571-577, see also Regulation Market share,362 Market size, 179 Market & weather reports,45, 88,91
Married. . . with Children, 618
Mars landers, 656-657 Marshall, E. G. (actor),433 Martial arts, 641 Martial Law, 641 Martime wireless communications, 38-41 Martin, Dean (singercomedian), 308 Martin, Dick (comedian),438 Martin, Mary (singer,actress), 372
Marly, 373 M m , Grouch0 (comedian, quiz-show host), 298, 312
Mary Hartman, Mary Hartman, 438
Mary vier Moore Show, 535, 723
Mass audience, 6, 792, see also Audience Mass communication, 730 Mass media, 6, 792-793 Masterpiece Theatre,426,520, 630,715
Matching gifts,626 Maude, 438
Maxim, Hiram Percy (inventor, amateur radioleader), 56
Maxwell, James Clerk (mathematician), 27 May, Joseph (engineer),110 MaybenyR.F.D.,437 Mayflower case, 333,737 “Maytag repair man,”634 MBS, see Mutual Broadcasting System McCarthy, Charlie (dummyfor ventriloquist Edgar Bergan), 187,191, 243,298
McCarthy, Sen. Joseph, 379-380
McDonald, EugeneF., Jr. (Zenith executive,b t NAB head), 201, 203-204,279480
McGovern, Sen. George(presidential candidate, 1972), 453
MCI, 13,485,562 McLaughlin Group, The, 632 McLendon, Gordon (programming innovator),285, 367,428
McMahon, Ed (announcer), 441,443
McNamee (earlyannouncer), Graham, 82 McNeil, Don (BrealqfastClub host), 285, 365 “McPaper,” 582-583 MDS,see Multipoint distribution service Meadows, Jayne(actress),532 Measurement in Radio,206 Mechanical reproductions,145 Mechanical television, 110-113, see also Television Media-bashing, 731 Media control,283 Media rooms,598 Mediaone, 614 Medical Center, 440 Medical programs,440,645 Medical Question Box, 138 Meet the Press, 312, 538,542, 659
Melrose Place, 647 Mel’s Diner, 537 Membership drives, 522,625 Menotti, Gian Carlo (composer), 309 Merchandising money,627 Mercury Theater on the Air, 187
Subject Index
Mergers, 148, 284, 288, 420, 500-501 Meters, 248 Metromedia, 500,508 Metropolitan Opera, 130,242 Mexico, 102,149-150,216, 401,477 “Michelin Tiremen,”130 Mckey Mouse Club, 357,376 Microchips, 599 Microgroove recording,272 Microphones, 109 Microsoft, 607 -NBC venture, 708-709 Microwave broadcasting, 504, 573,819 Microwave relay towers,287 Microwave relay rules, 467 Middle East, 543 Middleman institutions, 124, see alsoAdvertising Middle-of-the-road(MOR)programming, 367,368, 526,527 Midwest Programon Airborne Television Instruction (MPATI), 326,423 Milam, Lorenzo (broadcast reformer), 474 Mileage-separation standards, 390 Military, 10-11, 50, 223, 389, 390,544 Milkman’s Matinee, 299 Miller, Glenn (band leader), 242
MiJwaukeeJournal,116,181 Miniseries, 436,521, 530,639 Minitel system,495, 585-586 Minnesota Public Radio, 519 Minority groups,71,440, 647-648 Minority-owned stations, 571-572 Minow, Newton (FCCChair), 407,460,736 Mirren, Helen (actress), 630 Misleading advertising, 431, see alsoAdvertising “Miss Frances’’ (children’s program personality), 311 Missing Nixon tapes, 451 Mission Impossible, 439 Mississippi Valley floods, 195 Mistakes, live television, 370 Mister Roger’s Neighborhood, 427
Mitchell, Pat (PBS head), 631, 710 Mitchum, Robert (actor), 530
MMDS, see Multichannel multipoint distribution service Modems, 488,788,789 Modern Maturity, 583-584 Mondale, Sen.& Vice President Walter, 453,548 MondayNight Football,442, 652 Money-versus-creativity conflicts, 704 Monitor, 356, 358, 365 MonitoRadio, 519420,657 Monochrome television, 322, see also Television Monopoly (and investigations of), 5658,96, 93-98, 167, 210, 212, 259-260,418-419, 463-467 Montreal, Canada, 64 Moon walk, 407,446,448 Moonlighting, 5 73 Moore, Gary (M.C.), 308 Moore, Mary Tyler (actress, comedienne), 438, 532 Moorehead, Agnes (actress), 187 MOR, see Middle-of-the-road programming Moral Majority, 558 Moratorium, governmentimposed, 279 More Tales of the City,630 Morgan, Harry (actor), 535 Mormon Tabernacle Choir,130 MorningEdition, 519, 628 Morning ProMusica, 520 “Morphing,” 601, 633,794 Morrison, Herb (reporter), 195-196 Morro Castle, 155 Morse, CarltonE.(radio writerproducer), 191 Morse, SamuelF.B. (telegraph inventor), 10 Morse code, 10,596, 772, 795 Mosaic, 607 Mother Teresa, 620 Motion pictures 1920-1926 radio technology applications, 100 1934-1941 radio effects, 148-149 1945-1952 early television entertainment, 303 postwar innovationsin television, 274 programming, 229 stereotypes, 262
957
Motion pictures(cont.) studios and television effect, 337 1952-1960 programming, 371,375 relationship, 398-399 1961-1976 crises and television, 475 1977-1988 competing for the consumer, 584 first-run and cable fees, 516 made-for-television, 530, 537-538 1988-2001 features and cable programming, 622 television network acquisitions, 618 Motorola radios, 201, 316 Motown RecordCo., 432 Moulder, Rep. Morgan, 392 Movie Channel,The (cable), 515,622 Moyers, Bill (documentary producer-presenter), 521 MP3 computer software,600, 790, 795, see also Internet MPATI, see Midwest Program on Airborne Television Instruction Mr. District Attorney,191 M r . Keen, lzacer of Lost Persons, 191 “Mr.Television,” see Berle, Milton “Mr. Whipple” (advertising character), 634 Ms. Scrooge,621 MS-NBC, 623, 708-709 MSO, see Multiple System Operator MTM, 722
MTV, see Music Television Mudd, Roger (anchor-reporter), 521 Multicamera television, 435 Multichannel multipoint distribution service (”D3 broadcasting delivery, 596 cable programming, 514, 516 characterization, 793 regulation, 573 subscribers, 514 wireless cable television, 504 Multimedia, 602
958
Subject Index
Multiple System Operator (MSO, cable), 417418,506,614, 709,717 Multiplexing, 275,347,794
Multipoint distribution service
Muzak Corp., 299 My Favorite Martian, 639 My Favorite Year,609 Myrt In’ Marge, 301 Mystey, 520, 631 Mystev Theater, 433
(MDS), 504,793
Munich crisis, 194 Murder trials, 654,655 Murder, She Wrote, 647 Murdoch, Rupert career in broadcasting, 508 cross-ownership, 500, 736 DBS broadcasting delivery, 597
Fox network, 508 world changesand broadcasting future, 676,677 Murphy Brown, 646-647 Murphy, Thomas (Capital Cities/ABC Chair),510 Murrow, EdwardR. (news broadcaster: USIA head), 19341941,194,195 1941-1945,237,238, 240-241 1945-1952,287,312 1952-1960,377-379 1961-1976,449
Music Appreciation Hour, 130, 138
Music formats,432-433 Music licensing,99,579, see also American Society of Composers, Authors, and Publishers Music programming to 1919, 31,32,36,44 1920-1926,8243 19261933,130-131,133 1934-1941,180-183 1941-1945,242-243,309 1945-1952,367 1961-1976,432433 1988-2001,637
Music Television( M T V ) [cable),516 Musical Clock format,299 Mussolini, Benito(Italianfascist dictator), 194, 265 Must-carry le, 574-575, 620, 673, 700,806
Mutual Broadcasting System (MBS) advertising income,179 affiliates, 283, 356 FCC investigations, 211, 259 network domination,174,175 news, 237 origins, 135
N NAB, see National Association of Broadcasters NABET, see National Association of Broadcast Engineers and Technicians NAEB, see National Association of Educational Broadcasters NAEB Tape Network, 291 Naked City, 439 Nally, Edward (radio executive), 58 Napster, 600, 790, 795, see also Internet NARBA, see North American Regional Broadcasting Agreement Narcotizing dysfunction,386 Narrowcasting, 46, 685, 776 NARTB, see National Association of Radio and Television Broadcasters and NAB NASA, see National Aeronautics and Space Administration Nosh Bridges, 641 National Advertisers, Association of (ANA),140 National Advisory Councilon Radio in Education, 123,175
National Aeronauticsand Space Administration (NASA),411 National Associationof Broadcast Engineersand Technicians (NABET), 257
National Associationof Broadcasters (NAB) Blue Bookand public service responsibilities, 332
broadcasting codes,472473, 524
convention, 494 deregulation and Telecommunications Act of 1996,669-670
National Association (cont.) electronic media delivery equipment, 494,498 FCC cable rulesand NCTA, 418,462
function evaluationand name change,334 high-definitionldigital television, 602 regulation, 560-561 self-regulation, 147, 212, 731,740-741
wartime controlof radio, 258 National Associationof Educational Broadcasters (NAEB) educational broadcasting, 176,423
postwar, 291,292 survey and early television entertainment, 303-304.305
National Associationof Radio and Television Broadcasters (NARTB),334, see NAB National Broadcasting Company (NBC) 1926-1933
creation, 1 1 6 1 1 9 depression radio advertising, 126,127 19341941
investigations of monopoly by FCC, 211 network domination,173 1941-1945
FCC investigations, 259 network programming,358 news programming, 237 split-up and formation of ABC, 231-232 1945-1952
affiliates and postwar expansion, 287-288, 289 1952-1960
color programming,384 regulatory confidence crises and UHF, 388 specials and television programming, 372 1961-1976
network operations,422 1977-1988
network upheaval, 511-512
Olympic game coverage, 546
television news programming, 542
Subject Index
National Broadcasting(cont.) 1988-2001
network acquisition,617 news magazine programming, 658 future, 703, 704 National BroadcastingCornpany vs. United States case, 259 National Cable Television Association (NCTA), 418,462,506
National CaptioningInstitute, 495-496
National Citizen's Committee for Broadcasting (NCCB),473 National Citizen's Committee for Educational Television, The,360 National Committeeon Education by Radio,123, 175,176
National Educational Television (NET),423,427 National Educational Television and Radio Center, 361
National Electric Signaling Co., 30 National Farm and Home Hour, 138 National Football League (NFL),651 National Geographic, 521, 584
National Institute of Mental Health (NIMH), 557 National Institute of Standards and Technology (NIST),600 National networks,see also Individual networks advertising income, 178-179
creation of CBS, 120-122 creation of NBC, 116119 National Production Administration (NPA),323 National Public Radio (NPR), 486, 518,519,616, 625,627-628
National Radio Broadcasters Association, 561 National Radio Chamberof Commerce, 89,see EIA, RMA National Radio Conferences, 93-97
National Recovery Act(NRA), 213
National sample,ratings, 555 National Science Foundation (NSF),607 National Stereophonic Radio Committee (NSRC), 347-348
National Symphony,130 National Telecommunications and Information Administration (NTIA),560, 771 National Television System Committee (NTSC) color television standards, 323-324
HDTV and evolution of broadcasting, 684 high-definitioddigital television, 603, 605 recommendations for electronic television, 168
television signal standards, 813
National Vespers,138 Nazi Germany, radio broadcasting, 264 NBC, see National Broadcasting Company NBC Symphony Orchestra, 181-182
NCCB, see National Citizen's Committee for Broadcasting NCTA, see National Cable Television Association NAEB, see National Association of Educational Broadcasting Nelson, Ozzie (band leader, comedy actor), 243, 309
Nemo, 806 NET, see National Educational Television Netscape navigator,607 Network, 538 Network Election Service,452, 653,see also News Election Service Networks, see alsoIndividual entries to 1919 establishment and radio broadcasting, 15 1920-1926
beginning in radio, 77-78 19261933
depression radio advertising, 126-127
959
Networks (cont.) 1934-1941 start, 204
domination, 172-175, 703-704 1945-1952 nighttimeprogramming
and early television,303 postwar programming and local affiliates,285, 288
radio, decline,297-301, see also Radio networks 1952-1960
domination, 356360 FCC investigation, 391-392 regulatory confidence crises and UHF, 388 1961-1976
changing patternof operation, 418-423 FCC and operations, 418419 1977-1988 cable, 514-517
closed-captioning, 495-496 competitive pressures, 509-510
jockeying, 529-531 new entrants,507-509 television programming, 537
upheaval, 510-514 characterization, 795-796 future, 705-707, 716 New WorldInformation Order ( M O ) , 587 New York Daily News,100 New York Philharmonic, 83, 130,242
New York Post, 508 New York "Xznes,100 New York Ilh'bune,100 New York World'sFair, 167 Newhart, 647 News programming 1920-1926,86-87 1926-1933
developing diversity, 133,135-137
radio, 155,628 1934-1941.193-196 1941-1945,236240 1952-1960,365,377 1961-1976,443-452 1977-1988,538-545 1988-2001,652-661
future importance, 724-727 network control.707
960
Subject Index
News and Information Service (MS),422 News conferences, 379 News Election Service,661, see alsoNetwork Election Service News personnel, organizations of, 474 News reporters, 149,419,449, 633
News services, 422-423,796 NewsHour with Jim Lehrer, 632
Newspaper Preservation Act, 583
Newspaper advertising, 523 versus television,398 competing forthe consumer, 582-583 crises and television,476
“extra” and radio news programming, 193 ownership of broadcasting stations, 86-87,116, 282,283
FCC investigations, 211, 259-260,470471
radio war, 136 readership changes and television effect,552, 725 Newsreels, 229
NFL, see National Football League Niche audience,730 Nickelodeon (cable),623 Nielsen, A. C. (audience research firm) programming data (1949-2000), 850-861
radio research,318 viewing trends 1941-1945,248 1950s, 384 1961-1976,455 1977-1988,553,554 1988-2001,664,665 Nielsen Radio Index,248,
see also Nielsen Nielson meter,see People meters Night Court, 532 Nightline -Fronthe co-venture, 727 imitation and evolution, 529 magazine programming,659 news programming,538, 540,542,652
public television,520 success, 725
Nighttime programming,see Daytirndnighttime programming 9XM (Madison,W), 45,64 1900 House, 645, 722 1972 Rules, 469 Nipkow, Paul (inventorof TV scanning disc, 1860-1940), 110-113, 812
NIS,see News and Information Service NIST, see National Institute of Standards and Technology Nixon, President RichardM. 1960 debates, 380-382 election broadcastingand early television, 313-314
fall, 407 funding for publictelevision, 4 2 5 4 2 6 television news programming, 449 Watergate scandal,451 Nizer, Louis(attorney),397 Noble, Edward,J. (creator of ABC), 231-232, 288
Noise, 802, see also Signal-tonoise ratio Nonduplication rule, 526 Nonmetallic conduction,26, see alsoConduction Nonprofit organizations,176 Norelco/Philips, casette development, 409 Nomandie, 238 North American Regional Broadcasting Agreement (NARBA),216, 773
Northern Exposure, 647 Norton, Kenneth (spectrum expert), 252-253 Nostalgia, 433 “Not invented here” syndrome, 687
Notch system,600 Nothing Sacred, 648 Nova, 520,631 Now, 659 NPA, see National Production Administration N R A , see National Recovery Act NPR, see National Public Radio NSF, see National Science Foundation
NSRC, see National Stereophonic Radio Committee N T I A , see National Telecommunications and Information Administration NTSC, see National Television System Committee Nuclear War, 530-531 Nudity, 630,636, see also Indecency NWIO, see New World Information Order NYPDBlue, 636,639,640 0 0 & 0,see Owned-andoperated stations 0.J. Simpson trial, 654,655 O’Neill, Rep. ThomasP. (“Tip”),547 Oboler, Arch (radio writerproducer), 187, 301 Obsolescence, 688-689 Obscenity, 580-581 Ocean steamers,42,43 Office of Censorship, 226, 258-259
Office of NetworkStudy, 509 Office of Price Administration (OPA), 245 Office of Radio Research, 206-207
Office of Telecommunication Management, 462 Office of Telecommunications Policy (OW), 4 3 5 4 3 6 , 462,469,560,741
Office of War Information (OW), 235-236,263
Off-network shows,419 Offset carrier, 324 Ohio floods, 195 Ohio School of the Air, 123 Oil companies,427 OIRT, see International Radio Television Organization Oklahoma City Federal Building bombing, 654-655
“Old radio” sound,433-434 Olympic games bombing, 655 high-definition/digital television, 605-606 sports entertainment, 651-652
Subject Index
Olympic games(cont.) television programming 1961-1976,442 1977-1988,545,546
ON, see Overmyer Network On-air promotion,626-627 One Man's Family,132 One-to-a-customer rule, 471 one-way gate, 36 IXEIWGI, 45,64,65 Only a Game,651 OPA, see Officeof Price Administration Open captioning,495 Opmh!, 649 Optical fibers,4 8 7 4 8 8 Option time agreements,418 Orchestras, live, 130,242 Original Amateur Hour, 308 Originality, programming, 722-723
Oscars (Motion Picture Academy Awards), 419,649
Oswald, Lee Harvey (Kennedy assassin),444 OTC, see Over-the-counter drugs OTP,see Office of Telecommunications Policy Our Gal Sunday, 183 Our Miss Brooks, 309 Outboard conversion,352 Overbuilding, 574 Overmyer Network (ON),422 Overnight, 540 Overseas broadcasting, 263-264,704
Over-the-counter drugs (OTC), 524
O W ,see Officeof War Information Owned and operated(0& 0) stations, see also Affiliateslaffliliation advertising revenue,178 CES development, 122 characterization, 796 depression radio advertising, 127
FM"duplication, 302 NBC creation, 119 network domination,173, 289
Ownership broadcasting future, 705-706,719
cable television,418, 873 characterization, 797 concentration, 685,736-737 early stations, 70
Ownership (cont.) FCC, 470-471 patterns and growth effects, 282-283
postwar, 282-283 profitabilityof programming,
961
Parton, Dolly(singer),538 Passivism, 729-730, 735 Pastore, Sen. John,457,459 Patent interference case,163 Patent pooling agreement, 58-63
Patents, 23-24.49-50,
700
public broadcasting,624 rules, 610,614,669 shift, 500 television networks,617 02,636
690491,790
Patinkin, Mandy [actor-singer). 645
Patrick, DennisF. (FCC Chair), 560,566
Ozzie and Harriet, 309, 243
Pay-cable, 505, 798, 806 Pay-cable services,330, 416-418,505,514-517
P Paar, Jack (Tonight host 1957-1962), 308,372
Pacific Coast Network,117 Pacific Story, 244 Pacifica Foundation,433, 580-581,625
Pacifica stations, 474 Packagers characterization, 796,799 programming, 370, 707, 722 color, 43-35 Paint boxes,601 Paley, WilliamS. (CBS ownerexecutive) development, 121-122 network operations,421 network upheaval,511 news programming,194 postwar shaping,283,284 programming, 358 talent raidsand television, 297-298
PM Am Flight 103 disaster, 544
Panama Canal hearings,547 Panel programs,311-312,441 Panic, 190,775, see War of the Worlds Panic periods, 775 Paper Chase, 521 Paper, shortage,262 rationing, 232-233 Paper diaries, 665, see also Nielsen Paperback books,262 Paramount-ABC merger, 421 Paramount Pictures, 337,353, 354
Parker, Everett (industry critic), 462 Parks, Bert(M. C.),298 Participating advertising, 364,428, see also Advertising
Payne Fund, 123 Payoffs, 506 Payola, 368-369,394-396 Pay-per-view (PPV),515, 516, 622,623, 709,798
Pay-radio, 299 Pay-television cable andFCC regulation, 469 characterization, 798 debate expansion, 416-417 first, 279-282 intensification,353-355 PBS, see Public Broadcasting Service PC, see Personal computer PCS, see Personal communication services Peace marches,447 Pearl Harbor attack,224-225, 679
Pearl, Jack (comic), 129 Pearson, Drew (columnist), 196,312
Peller, Clara(actressin commercial), 548-549 Pennies from Heaven, 650 Pentagon Papers,451 People Are Funny, 244 People for the American Way, 558
People Look at Television, The, 456
People meter,384,553-555, 665,800
Peoples Republicof China, 676 Pe@ect Fool, The,88 Performance fees,214 Pe@ormance Today,519 Performing arts groups, 745 Per-inquiry selling, 525 Periodicals, 99 Permits, 228,232 Perot, H. Ross, 660 Peny Mason, 374,439,641 Persian Gulf War,544,655-656
962
Subject Index
Personal communication services (PCS),595 Personal computer (PC), 488 Peter Gunn, 374 Peter Pan, 371-372 Peter, Paul and Mary, 626 Petrillo, James Caesar (musicians unionleader), 257
Petri110 Affair, 257,333-334 Petticoat Junction,437 Peyton Place, 441 Pfister, Edward(CPB president), 518 Philadelphia Centennial Exhibition, 12 Philadelphia Storage Battery Company, 139-140, 163,201,315
Philanthropy, 80 Philco, see Philadelphia Storage Battery Company Philco Playhouse, 310 Philips (Dutch electronics company), 409,410 Phillips, h a (soap opera writer), 183 Phonevision pay-TV system, 204,280-281,353 Phonograph records,100,148, 262,272-273 Photoelectric cells, 161 Photography, archives,610
Pickard, GreenleafW.(coinventor of crystal detector), 37 Pictorial history,602 Picture definition, 112-114, 166165,168
Picture-in-picture circuit, 499, 598
Piggyback ad break,see Clustered ad break Pilot programs, 370,435436 Pioneer stations boom (1922-1925), 69-74 conflict: radio versustelephone group,74-77 oldest stations, 63-69 Plain old telephone service (POTS),595, see also Telephones Plastic base magnetic tape, 227
Platter turners, 257 Playboy Channel, The(cable), 615,622 Playhouse 90,373 Playwrights, 184-186 Pledge week,522,626 Plug-in models,91,139
Plugola, 394-395 PM Magazine, 543 Point of View, 630 Point-to-point communication,
President’s Communications Policy Board, 462 Presidential campaign,136,
6,12,46,51 Poison gas, 674 Police dramas,639-641 Police Story, 439 Police Women, 557 Policy, changing,734-742
Presidential Presidential Presidential Presidential
Political Obituary of Richard Nixon, The, 449 Political programming 1926-1933,86-87 1934-1941,196-200 1941-1945,240-241 1952-1960,379-382 1977-1988,546-550 1988-2001,627,637, 659-661
public broadcasting,517-518 PohYically Incorrect, 659 Pool reporting, 544 Pooling, 400 Popoff, Alexander (Russian radio inventor),27 Portability, 195,198,273 Portable film recorders,227 “Pot Partyat a University” program segment, 449-450
POTS, see Plain old telephone service Potter, Sen. Charles,389-390 Poulsen, Valdemar (Russian TV inventor, 1869-1942), 33
Poulsen arc transmitter,33,41, 62,156
Pound, Ezra(poet),265 Povich, Maury (talk show host), 649 Powell, Gen. Colin,656 PPV, see Pay-per-view Practice, The, 641 Prairie Home Companion,A, 519,628
Predictions advertising, 718-719 audience research,733-734 broadcast regulation,742 future of news broadcasting, 727
innovative technology, 696-698
public broadcasting, 714-715 Preece, William (headof U.K. postal telegraph),28 Premium gifts,6 2 5 4 2 6 President Kennedy’s death, 238-239
313,380
candidates,547 debates,547-548 elections,744,861 news conferences,
379
Presidential speeches, 77 Presley, Elvis(entertainer), 369-370
Press-Radio Bureau,137 Prestige drama, 187, see also Drama format PRI, see Public Radio International Price, Byron (headof WW II Office ofCensorship), 258
Price, cutting, 201 Price, Vincent (actor,host), 520
Pricing, radio receivers,139 Prime Suspect, 645 Prime “lme Access Rule (PTAR),419,509-510, 528,799
Prime t i m e advertising income,179 establishment and audience research, 140 network dominance,703 rights regulationin 1977-1988,581
spot advertising,428 television programming (1973-1995), 858
Primestar, 597 Prime’l’SmeLive, 6 7 3 4 7 4 Print media,148 Printed circuits, 408 Prisoners, Tehran,543-544 Privacy, invasion of,673-674 Pro rata share,364 Procter & Gamble, 233,363, 329
Professors, 200 Professional Broadcasting Education, Association for, see BEA Profits, 233,699-701 Program analyzer,207 Programs/programming 1920-1926
paying for, 79 regulation, 97
types, 81,82 1926-1933
early television,114 types, 133
Subject Index
Programs/programming (cont.) 1934-1941
audience preference patterns, 205 cleanup and FCC, 208-210 control of radio and advertising agencies, 177-178
drama, 183-192 music and variety programs, 180-183
news, 193-196 other programs,200 politics, 196200 types, 181 1941-1945
wartime, 234-245 1945-1952
postwar, 285 radio, 300 radio types, 300 television types, 304 1952-1960 length, 371
local and network input, 367
political broadcasting, 379-382
quiz shows,376-377 radio revival and top-40, 365-370
television entertainment age, 370-376 television journalism, 378-379 1961-1976 economics, 434-446
election broadcasting, 452453
news broadcasting, 443452
radio, 432433 television entertainment formats, 436443 1977-1988
cable-controlled and wireless cable, 504 dramatic techniques, 531-532
media/politics, 546550 needs of television, 502-503
network jockeying, 529-531 news, 538-545
public broadcasting, 518-521 radio, 526-527 risk, 527-529
unusual entertainment, 532-538
Programs/programming (cont.) 1988-2001
963
Public television(W), 328-329,400,426, 785
development, 618, 620421,630-633
videocassette recording, 601
future as baitand advertising, 715-716
retirement, 723 definition, 799 imitative and broadcasting future, 720-721 network-station relationships, 707 radio types/formats (1927-1999),
Public Television:A Program for Action(Carnegie Report I), 424 Public %st, A (Carnegie Report II),517 Publicity, 82 Pulse, The, 384 Pupin, Prof. Michael (inventor of loading coil), 12, 157
PuskBs, Theodore & FranGois (wired audio system innovators), 39
843-849
television typeslformats (1949-ZOOO),
Q
850-861
Progressive scanning,604 Projection video,598 Promotional material, 522 Propaganda & propaganda analysis, 247, 248-249,262-265, 339,400401 Propagation, radio waves,820 Prudential InsuranceCo., 487
Psychology of Radio, The, 206
PTAR, see Prime Time Access Rule PTV, see Public television Public access,463 Public affairs,628, 631-632 Public Broadcasting Actof 1967,424,425
Public BroadcastingLaboratory. 424 Public Broadcasting Service (PBS),426,486, 625, 709
Public broadcasting beginnings, 44-45 network affiliates,836 programming 1964-1996,860 1977-1988,517-522 1988-2001,624-633 future, 709-712 revenue (1970-1999), 843 Public consciousness,440 Public interest, 208-209, 734-742 Public opinion,41
Public Radio International (PM), 627 Public service,88, 331-333, 395-396,460
Public Telecommunications Trust, 517
QST magazine, 44 Quadruplex, 40!3-410,803 Quality, improving, 143 Quality Network,174 Quality standards,89 Quayle, Vice PresidentDan, 550 “Qube” (interactive pay-TV) system, 506 Queen Elizabeth11, coronation, 378-379
Queen for a Day, 299,312 Queen’s Messenger, The, 114 Quello, James (FCC Commissioner), 461 Quincy Cable TV Inc. v. FCC case, 575 Quiz Kids,312 Quiz Show, 394 Quiz shows early television entertainment, 311-312 investigations, 393-396 popularity, 200 scandals and ratingsservices, 385 talent raids, 298 television 1950s programming, 376-377
R Racial minorities,see Minority PUPS Radiation, 27-33,800 Radio to 1919 impact, 100-103 programming, 80-88 1920-1926
early studios, 71,
72-73
964
Subject Index
Radio (cont.) 1941-1945
advertising market, 232-234
domestic effects,262-263 international effects, 263-265
usage, 246-249 1945-1952
CBS talent raids, 298 meeting the continuing demand, 314-315 postwar economics, 293-295
public attitudes, 317-318 1952-1960
advertising revenue,362 networks and television, 356
revival of local and programming, 365-370 1961-1976
ABC network, 420 viewer listening wends, 455 1977-1988
advertising revenue, 523-524
audience penetration, 551 cordless and electronic media delivery,488 listening pattern change, 552
music licensingand rights regulation, 579 programming, 526-527, 616
technical standards and regulation, 570 1988-2001
digital and broadcasting delivery, 606 formatting, 637-638 licensees and ownership, 610
public broadcasting, 627-629
stations and systems, 611-613
advertising revenue (1929-2000), 838-839
commercial network afEliates, 830-832 formats (1968-1999), 849 future audience loyalty, 710 standardized formats, 720-721
NBC red and blue networks (1927-1941), 833
Radio (cont.) programming (1927-1956) daytime, 846-847,848 evening, 844-845, 84€-847,848
receiver ownershipand audio market (1922-1998), 861-863
use (1931-1999). 867
Radio Actof 1912,42,43,56 Radio Actof 1927,141-142, 734,735
Radio audience,88-92, see also Audience Radio broadcasting communications medium,14 detection, 36 developing diversity drama, 132,134-135 election, 137-138 music, 130-131 news, 135-137 talk show,138 variety, 128-129 growth outside the United States, 149-150 station expansion,168-172 structure and stagnation, 115-116
Radio Bureau (OW),235 Radio City, 119 Radio Corporationof America (RCA) A. H. Grebe suit andearly radio, 76 allocation conflict between televisiodFM, 252-255.256
CBS development, 120 color television standards and televisionfreeze, 322-324
consolidation and antitrust prosecution, 108 creation, 57-58 creationofNBC, 117,118,119 depression radio advertising, 126
early radio receivers,89,90 electronic television, 163-165,167-168
establishment, 57-58 extended play records,273 FCC investigations, 259 invention ofFM radios, 157 manufacturer of radio receivers, 201,202 music transcription service, 181
patent pooling and Westinghouse, 58-63
Radio Corporation(cont.) phonograph (330) records, 272,273
pioneering stationWDY,68 radio tube manufacture,139 television receiver manufacture, 315 videodisc in home video recording, 491 videotape recording,348 Radio Free Europe, 339 Radio-frequency bandwidth, 109
Radio Group/Telephone Group, 116-117 Radio in the American Sector of Berlin (RIAS),339 Radio Liberty,339 Radio Manufacturers Association (RMA), 113-114, 165,167, see also EL4 Radio Moscow,150 Radio Music Box (Sarnoff memo), 15,47, 743 Radio networks,283-286, 512-513
Radio Newsand Music Company, 66 Radio operators, 39 Radio receivers,201-204,226 Radio Research 3943,206-207 Radio schoolsof the air, 78 Radio Technical Planning Board (RTPB),252,255 Radio’s All-Dimension Audience Research (RADAR),666 Radio’s Second Chance,332 Radiotelegraphy, 28-30 Radio-Television News Director Association (RTNDA),568,669 Railroad-telegraphy combinations, 11 Railway rails (inductive system), 23 Randall, Eunice (pioneer broadcaster), 70 Rape, 557 Rates, 286, see also American Telephone and Telegraph Rather, Dan (CBSnews anchor), 541,542,652, 725
Ratings audience fragmentation, 665-666
audience research,140 characterization, 800-801 daytime andpolitics, 380
965
Subject Index
Ratings [cont.) edge and color programming, 434 encoding in home entertainment, 598 imitation and evolution, 530 Kennedy assassination,444 movie format,437 overnight and audience listening trends, 385 problems and television viewing trends,
Recording, home,489-493 Recording Industry Association of America
455457 programming, 247 services, 386385,491, 553-555 Rationing, 234 Raytheon, 201
“Red scare,”335 Rediffusion, 44, 778 Redstone, Sumner (owner movie theaters, CBS),
RBOCs, see Regional Bell Operating Companies RCA, see Radio Corporationof America REA, see Rural Electrification Administration Reader’s Digest,476, 584 Reading, recreational,743 Reagan, President Ronald,310, 446,517-518, 547-548 Real McCoys, The, 373
Reality-based programming, 635,722
Reasoner, Harry (ABC anchor), 443
Rebroadcasting, 97 Receiver characterization, 801-802 development and creationof radio audience, 89-91,92 color, 434
cost and portabilityfor radioltelevision, 382-384
early television,316 FM, 351 freeze, 245 regulatory confidence crises and UHF, 387 Reception, wireless,36-38 Record companies,368 Recorded programming,370 Recordgraph, 227 Recording ban and thePetrillo affair, 257
characterization, 802-805 formats, 804-805 methodological innovations, 226-228
technology, 608-609
(RIAA), 600
Rectifier, 817 Red Channels, 336 Red Dwarf, 639 Red Lion Broadcasting Co. v. FCC case, 463466, 568,737
Red network (NBC), 117,119, 178-1
79
706
Reel-to-reel tape recorders, 274,409,802
Regenerative circuit, see Feedback Regenerative receiver,59, 801 Regional Bell Operating Companies (RBOCs),495, 595
Regulation, see also Deregulation cable, 467-470 changing regulators, 459-463
coddence crisis blacklisting continues, 396397
Congress investigatesthe FCC, 392-393 FCC investigates the networks, 391-392 quiz show and payola, 393-396
self-regulation andtelevision’s image,396 UHF, 387-391
Communications Actof 1934,562-566
competition, 575-577 deregulation, 563,566-569 early radio broadcasting, 93-99
fairness on the air,463467 FCC as reluctant regulator, 734-735
government budgetand electronic media,67-75 improving content,145-147 interference, 143-145 interstate and foreign radio communications, 141-143
market entryand equity of treatment, 571-575 rights, 577-581
Regulation (cont.) self-regulation, 147,471474 space communicationsatellites, 5 station ownership,470-471 technical standards, 569-571 wireless communications, 4144
Regulators, change,459-463 Reid, Charlotte(FCC Commissioner), 461 Reiner, Carl (comedian, writer), 309 Reiner, Rob (actor, director), 609
Reith, John C. W. (BBC head), 201
Relay broadcasting, 159 Religious programming cable, 621,622 developing diversity, 138 early radio broadcasting,87 music on radio,433 popularity, 200 rise of mass society,8 television entertainment, 648
Remote, 806 Remote broadcasts,198 Remote controls,555, 598 Renewal, licenses,471, 667-668, see also Licensesllicensing Rental tapes,491 Rep firms, 125,177 Repeaters, 806 Request Television,516 Reregulation, 415,see also Deregulation; Regulation Reruns, 435436,439,622 Rescue 8,643 Rescue 77,643 Rescue 91 l , 643 Research audience, 140-141,200-207 children’s television programming, 386, 557-558,
730
Residual income,527,806 Resolution, 110,112,813 Resonance tuning,27 Reuter, Julius (news service founder), 10-11 Revenues advertising, 178-179 public broadcasting,843 radio, 838-839 television, 840-841 televisionlcable, 842 Revlon, 364
966
Subject Index
Reynolds, Gene (scriptwriter/ producer), 534 Rhythm and blues,369 RIAA, see Recording Industry Association of America RIAS, see Radio in the American Sectorof Berlin Richard Diamond, Private Eye, 374
Richards, G. A. (station owner), 333 Rigg, Diana (actress),630 Rights, regulation,577-581, see alsoRegulation Rioting, 447,452 Risks, television programming, 527-529
Rise of the Goldbergs,drama programming, 132 Rivahys, 284 Rivers, Joan(hostess),512 RKO General, 568-569 RMA, see Radio Manufacturers Association Road of Life, 183 Roar, 645 Robert MacNeil Report, 520 Roberts, Cokie,628,657 Robertson, Rev. Pat, 549,559 Robinson, Hubbell(CBS executive), 375 Robot vehicle, 656-657 Rock In’ Roll,369,432 Rock radio, see Top40 programming Rockefeller Foundation,176, 264
Rodgers, William (attorney general 1957-1961), 395 Rogers, Roy (singer),301 Rogers, Will (humorist, philosopher), 117 Romance of Helen l h n t , The, 132,243,337
Roosevelt, President Franklin Delano, 57, 137, 167, 196199,207,215, 226,238-239, 240441,333,576
Roosevelt, President Theodore, 43 Roofs,436, 530
Roper Organization surveys, 396,456457,552
Rose, Reginald( T V playwright), 373 Roseanne, 646 Rosing, Prof. Boris(TV inventor, 1869-1933), 160 Ross, Diana(singer),432
Roster-recall method,248 Rotary arc, 815 Rothafel, Samuel(theatricalimpressario, “Roxy”),83 Roundup, 194 Rowan and Martin’s Lough-In, 438
Rowan, Dan (comedian),438 Roxy‘s Gang, 83 Royalties, 76,80,578,600, 790 RTNDA, see Radio-Television News Director Association RTPB, see Radio Technical Planning Board Ruby, Jack(killer of Lee Harvey Oswald),444 Rule, Elton(ABC president), 421
Runyon, C. R. (Armstrong assistant), 158 Rural areas, 170,204-205, 319-320,503,504
Rural Electrification Administration (REA), 155 Russia, 655 Russian Wireless Telegraph and Telephone Company, 161
S
Satellite (cont.) rights regulation,578-579 space communication and regulation, 5 telegraphic tower,25 transmissions and world changes, 675,676 Satellite Music Network,513 Satellite News Channel (SNC), 540
Satellite news-gathering (SNG), 539,785,806
Satellite Television Corporation (STC),487, 573 Saturday Evening Post, 475 Saturday Night at the Movies, 437
Saturday Night Live, 609 “Saturday Night Massacre,” 451 Savareid, Eric(CBS commentator), 195 SCA, see Subsidiary Communications Authorizations ScanAmerica system,555,665 Scandals, 377, see also Quiz shows Scanning, 110,160-165 Scanning disc, 110-112 Schaeffer, William (broadcaster), 146 Schaf’fner, Franklin (TV producer-director), 373
Saerchinger, C.,194 Safe harbor, 581,671 SalvB, 23 Sam ‘n’Henry,132 San Francisco exposition,45 Sanford and Son, 438 Sarnoff, David(earlyhead of RCA), 15, 39. 4 6 4 7 , 58, 62, 73, 78, 80, 96, 157,359,743
Sarnoff, Robert (later head of RCA), 358,359,422 Satcom I, 412,515
Satellite, see alsoindividual satellites additional channels and television freeze, 326 characterization, 806 dishes (TVROs),692-693 distribution growth (1975-2000), 874
long-distance communication and changing technologies, 411 network upheaval,512-513 news programming,444 Public Broadcasting Service, 486
Schairer, Otto (patent lawyer), 62,108,163
Schechter, A. A. (first NBC news head),193 Scheduleslscheduling competitive and television programming, 722 educational television stations, 361 radio 81-82,84-85,131,133, 181,300
television 230,304,371,435
20-minute programs,303 Schirra, Walter (astronaut),448 Schneider, John(CBS executive), 421
Schorr, Daniel (newsman),521 Schuler, Rev. Robert, 146 Schwartz, Bernard(attorney), 392
Schwarzkopf, Gen. Norman, 656
Science Fiction Channel (cable),622 Science fiction programming, 311,439,639
Subject Index
Science Friday,628 Science Guy The (Bill Nye), 633 Scopes trial,87 Scott, George C. (actor), 440 Scrambled signal, 353, 798, 806 Screen Actors Guild, 527 Sea water, 23,see also Conduction Sears Roebuck department store, 273 Seasons, television, 455, 721 See It Now, 287,313,378,379 Seinfeld, 646, 723 Self-regulation broadcasting future, 740-741 broadcastors, 334-336 early radio broadcasting, 96, 98-99 FCC, 212-213,471474 television, 396, 731 television impacton children, 457 Selling of the Pentagon,421, 450
Selling of the President1968, The, 453 Selling, direct, 525 Semaphore systems, 7,806-807 Semivariety shows, 129 Senate Commerce Committee, 389-391, see also Congress Senator, The, 440 Sergeant Bilko(You’ll Never Get Rich), 374 Serial format,183,187,437 Serling, Rod ( T V playwright, host), 373 Service to the Front, 244 Sesame Street,427,520,633, 714,715,722 Sevareid, Eric(CBS reporter, anchor), 237,443 Seven dirty words youcan’t say on the air, 580-581 77 Sunset Strip, 374 Seventh Heaven,648 Severinson, “Doc” (band leader), 441 Sex, 536,537,670 Sex and Broadcasting, 474 Sexual exploitation,536 Sexually explicit material,672 Shadow, The, 135,433 Shah of Iran, 543 Sharp, Steven(FCC Commissioner), 565 Shatner, William (actor), 643 Shaw, Bernard(CNN reporteranchor), 655-656 Sheen, Martin (actor),641-642
Shellac, 262 Shepard, John, III (regional network executive), 69,232 Ship dispatching, 40 Shirer, William (reporter),195 Shock jock,see Stern, Howard Shore, Dinah (singer), 441 Shortwave broadcasting,78, 101,676,819 Showtime (cable),622 Siegel, Seymour N. (station manager), 291 Siepmann, CharlesA. (consultant-critic), 332 Signals, 10,71,487,808 Silent nights, 74,784 Silverman, Fred (network programming executive), 511,529,705 Silvers, Phil, 373-374 Simon, Neil (playwright), 609 Simplexing, 347 Simpson, 0.J. (football star, actor, accused murderer), 654 Simpsons, The, 618,637,648 Simulcasting, 300,365 Sinatra, Frank (singer-actor), 182,242 Sing It Again, 298 Singing Detective, The, 650 Sirica, John J. (legislative counsel, judge),261 Siskel and Ebert (film critics), 521 Situation comedies 1934-1941,191 1941-1945,243 1945-1952,309 1952-1960,371,372, 373-374 1961-1976,437,438 1977-1988,535,537,538 1988-2001,639,646,647 originality and future, 722 Six Wives of Henry WI, The, 426
Six-day bicycle races, 286 6XE, 6XF (SanJose), 63-64 Sixth Report and Order television freeze,324,328 regulatory confidence crises, 386,387 seeds of future problems, 329-331 60 Minutes
1977-1988,543,579-580 1988-2001,653,658,659 future, 720, 725
967
$64,000 Challenge,376,377 $64,000 Question,376,639 Skelton, Red (comedian), 298 Skiatron, 280,281,353,354, 355 Sky King, 301 Slaby-Arc0 wireless apparatus, 40 Slattery’s People, 440 Smackouts, 135 “Smiling Cobra,” 421 Smith Brothers cough drops, 129 Smith, AlfredE. (presidential candidate, 1928), 137 Smith, Buffalo Bob (puppeteer), 311 Smith, Fred (early programmer), 88 Smith, HowardK. (news commentator), 237,443, 449 Smith, Kate (singer), 234, 298 Smith, Willoughby (telegrapher), 110 Smithsonian, 521 Smothers Brothers (comedians), 438 Smythe,Dallas (economist),332 SNC, see Satellite News Channel SNG, see Satellite news gathering Snow White,156 Soap manufacturers, 183 Soap operas,radio and television 1926-1933,132,183 1934-1941,179 1941-1945,243,246247, 248
1952-1960,365,366,372 1961-1976,438,441 1977-1988,536 1988-2001,649 Soccer, 651,see also Sports programming Social impact, radio,147-151 Social movements,743, 744 Social unrest, 447 Socialization, 456 Society of Professional Journalists (SPJ),474 Somalia, 656 Song-and-patter teams,83,86 Sonny Bono copyright law, 609 Sopranos, 622,640 SOS distress signal, 5 Soul music, 432 Sound, 109-110,490
968
Subject Index
South Park,637,649 Southwestern Cable Co. v. U.S.case, 468 Soviet Union,339 Space: 1999,439 Space Patrol,301 Space race,4 4 6 4 4 7 Spanish-language television, 477,622
Spanish-speaking markets,401 Spark-gap transmission technique, 28-30,33 principle, 815 Special Bulletin,537 Special events,82, 378, 369, 417,429
Specid-interest programs,361 Specialization, advertising, 718, see alsoAdvertising Specials, 358,371,372, 512, 515,543
Spectrum raiding,350 Spectrum space allocations for satellites, 487 cellular telephone,595 characterization, 775 conflict between television/ F M , 249-256
educational radio,176 electronic television,164 technological trade-offs,688 Spectrum use fee, 561,564 Speeches, 36,548 Spelling, Aaron(script writer producer), 537,648, 705,722
Spin-offs, 436,437,438,646, 722,799
Sponsors, 125,141, 244,229, 363, see alsoAdvertising Sports Channel(cable),623 Sports programming 1920-1926
programming and early radio, 87 1926-1933
developing diversity, 138 1945-1952
early television entertainment, 311 re-creations and Liberty Broadcasting System, 285 1961-1976
expansion and subscription television, 416-417
television programming, 441,442
Sports programming(cont.) 1977-1988
fees and cable program-
ming, 516 television programming, 545-546 1988-2001
cable programming,622, 623
television entertainment, 650-652
future, 744 then and now,726 Sportscasts, mobile,726 Spot commercials,362, 368, 428, 796, see also Advertising Springer, Jerry(talk show host), 649 Sprint, 13,485,562 St. Elsewhere, 531-532 Standard Broadcast,see AM Standards of Practice, 334, see alsoTechnical standards Stanton, Dr. Frank (CBS president) audience research,206 CBS programming, 358,421, 450
postwar spokesperson,283, 284
Star l h k (and othersin the series), 439, 529, 639 Star Wars,602,608 Stan; Kenneth (prosecutor), 660-661
Stassen, Harold(politician), 313
State funding,361, see also Funding: Public television State legislators,440 State of the Union addresses, 547
Static, elimination, 157 Station breaks, 796 Station classification plan, 144
Station representatives (“reps”),125, 177-178 Stations, see also AM (amplitude modulation) radio stations: FM (frequency modulation radiostations; Television AM, FM, and television expansion, 412-418 financial support approaches, 716
Stations (cont.) locallnational dichotomy, 698-699
management and television news programming, 539-540
number on air (1921-2000), 826-828
shift in 1977-1988,499-500 STC, see Satellite Television Corporation Steel tape,227 Stereophonic broadcasting, 346-348,414,570
Stern, Howard (“shock jock”), 612,622,637,672
Stevenson, Adlai (presidential candidate, 1952, 1956), 313,314, 345,380
Stevenson, McLean (actor),535 Stone, John Stone(inventor),38 Stop the Music,298 Storage, 494 Storage-discharge effect,161 Storecasting, 347, 794 Storer, George B. (station group owner), 393
Storz, Todd (station o w n e d programmer),367 Stratovision, 292, 326 Streets of San Francisco,439 Strike, 527 Stringfield, Sherry (actress), 644
Stromberg-Carlson radios,139 Stubblefield, Nathan (wireless experimenter), 25,26, 44
Studio audience,88,129 Studio One,310, 373 Studios early radio,72-73 early television,280-281 S W ,see Subscription Broadcast Television Subcommittee on Legislative Oversight, 393 Submarine cables,11-12 Subscriber lists, 627 Subscriber-vision, 281 Subscription television( S W , 416417,505,514, 573-574 Subscriptions, 78, 708-709, 717-718
Subsidiary Communications Authorizations (SCA), 177,348,350-351, 410,794 Suez crisis, 380
Subject Index
Sullivan, Ed (M.C.), 129,242, 308
Sunspot phenomena, 321 Super Bowl,545,652,685 Super Circus, 311 Superheterodyne receiver,59, 90,801
Superman, 311 Superpower debate,171-172, 809
Superregenerative receiver, 801
Superstation, 412, 809 Super-VHS format,491 Supreme Court,see United States Supreme Court Supremes, The [singing group), 432
Surgeon General,Reports on children’s TV, cigarettes, and TV violence, 429431, 457458,557-558
Survivor, 635,639,643-645, 685,722
Suspense, 243 Sustaining programs,93-97, 126,179-180,302
Swaggert, Rev. Jimmy,549 Swayze, John Cameron (news anchor), 377 Sweeps weeks, 384,530 Swing, Raymond Gram (news commentator), 196 Swinton, A. A. Campbell (television inventor), 161 Switzerland, 676 Sykes Committee(U.K.), 101 Sylvania, 201 Synchronization, 275,813 Syndex rules, see Syndication exclusivity rules Syndication 19261933.135 1926-1933,109 1952-1960,370 1961-1977,435,439 1977-1988,528 1988-2001,633,645
future, profitabilityof programming, 699 Syndication exclusivityrules,
Taft-Hartley Labor Relations Act, 334, see also Lea Act Taishoff, Sol (publisher-editor, Broadcasting),332 Taking the Fifth Amendment, 380
Talent night,84 Talent raids, 297-301,362 Talent Scouts, 308 Talent, 809 Tales ofthe City,630 Talk format 1920-1926,87-88 1926-1933,138 1961-1976,432,441 1977-1988,527 1988-2001,660,649 Talk of the Nation,628 Tandem Productions,438, 722 Tape, 273-274 Tape recorder,273, see also
Individual entries Tariff barriers, 687 Tarses, Jamie(ABC programmer), 619 Tartikoff, Brandon (NBC programmer), 618-619, 705
TASO, see Television Allocation Study Organization Taverns, 8 Tax revenues, 79 Tax supported broadcasting, 74-76,78-80,102,216
Taxi, 537 Taylor, Arthur (CBS president), 421,459
Taylor, Deems [composercritic), 121 TCAF, see Temporary Commission on Alternative Funding for Public Telecommunications TCI, see Tele-Communications Inc. Technical problems, 169-170 Technical standards establishing and FCC, 143-147
innovative technology,
574 Synergy, 711
Syntonic tuning,38
T Table radios,201 Tabloid television, 727
690-691 regulation, 569-571 world changesin 21st century, 676 Technology, 6-14,108,115, 408412,485-498, 594-596.686-698 Teenagers, 372, 705
969
Telecommunications Actof 1996,615,667, 670471,672
Tele-CommunicationsInc. (TCI),506,614 TeleFirst service,491 Telegraphy, 14,9-11,810 Telemeter, 280, 281,353,354, 355
Telepathy, 16 Telephone industry,see also American Telephone and Telegraph and Interconnection answering machine,488 audience research,141, 205 changes in 1988-2001,595 electrical communications, 12-14,26
Internet, 788 optical fiber use,488 radio group conflict,74-77, 116-119
Telephonic newspaper,44, see also Newspapers TelePrompTer, 469,500 Telesistema Mexican0S. A., 401
Teletext, 493,494,810 Telethons, 382,531 Television to 1919 multiple access,16 1926-1933
development of mechanical, 110-113 going public, 113-115 prehistory, 110 1934-1941
camera development,161 NBC Symphony orchestra, 182
network controlof programming, 178 RCA investment in, 157-158 1941-1945
allocation conflict, 249-256
first rate card, 169 war years, 229-231 1945-1952
audience research,318 early entertainment, 302-312
educational programming, 291-293
establishment, 278-279 format of early commercials, 296 impact, 336-340
970
Subject Index
Television (cont.) innovations, 274-275 networks and postwar expansion, 286-290 trend in receivers, 315-317 1952-1960
rapid expansion, 351-353 receiver cost, 382-383 crises for competitive
media, 475476 impact on children,
Television and the Public,456 Television Broadcasters Association, 231, 254 Television camera tubes,810 Television channel, idealized, 814
(TIO), 396,455, 456-457,561
457459 1977-1988
advertising revenue,
Television Inquiryof
523-524
1956-1958,389-391
is more, better,502-505 limitation rules, 576-577 spectrum allocation, 572-573 1988-2001
networks and programming services, 617-619
stations and systems, 613-614
advertising revenue (1949-1979),
840-841
-cable (1980-2000), 842 Code categories,671 commercial network affiliates (1947-1988), 834-835
daytime programming (1949-1973),
854-855 859
types (1973-1987),
early technological development, 811-813 future
black-and-white versus color, 688-689 programming pattern, 699 as scapegoat,732 specialized useand future predictions, 697 standardized formats, 720-721
nighttime programming (1949-2000), 858
852-853,
number broadcasting (since 827-828
receiver ownershipand video market (1946-2000),
Television Quotient Service, 385
Television receive-only (TVRO)antenna, 412, 486,514,692-693, 806,see also Anten-
nas Television receivers,166, 697, see also Receivers Television signals, 813-814, see also Signals Televison andBehavior: Ten Years of Scientific Progress andImplications for the Eighties, 557
Telstar satellite, 411 Temporary Commission on Alternative Funding for Public Telecommunications (TCAF), 521-522
Tennis, 546,see also Sports programming Terrorists, 543-544,679 Terry andthe Pirates, 192 Terry, Earle M (earlybroadcaster),4546 Tesla, Nikola (scientist, inventor), 27-28 Testament, 530 Tet offensive, 447 Texaco Star Theater, 297,308 Textbooks, 148 That Was the Week That Was, 609
Thatcher, Margaret(British Prime Minister),585, 863-865
use (1931-1999),867,868 viewing share (1980-1999), 868
Television Allocation Study Organization (TASO), 389,390
318
334 Television Code (NAB), categories, 671 Television freeze, 321-329 Television Information Office
1961-1976
1941),
Television and Our Children,
677
Theater sound, 598,see also Sound Third generationcell phones, 595
Third Rockfrom the Sun, 639, 647
Third Watch, 645 Third World countries,687 thirtysomething, 535,647 This Is Fort Dix, 183 This Is Our Enemy, 236 This Is War, 234 This Old House, 633 Thomas, Lowell (newscaster), 136,196,238,312
Thompson, Elihu(scientistinventor), 26 Thompson, J.Walter advertising agency,233 Thorn Birds, The,530 Those We Love,301 Three Mile Island (nuclear power plant disaster), 545
Three Mile Islanddisaster, 545 Three Stooges, The, 386 Three Tenors, The, 626 Three-dimensional (3-D)film, 399, see also Motion pictures Three-dimensional (3-D)television, 813,see also Television Thrillers, 134, 191 Throwaway products, 689 Thunderstorms, 27 Thurmond, Sen.J.Strom, 313 Tidewater Oil, 79 Tiers, 619-621, 672-673, 778, see also Cable Time, Inc., 501,583,see also Time Warner, AOL/Time Warner Time base correctors, 805 Time signals, 40,see also Signals Time Warner,614,616,700-701 Times Mirror Company, 495 Time-shifting, 411,490,695, 804
Tinker, Grant( T V producer, NBC president), 438, 511,532,705
TIO, see Television Information Office Tisch, Laurence (CBS/Loew's Chair), 511,706 ZItanic sinking, 39 TNT, see b e r Network Television To Playthe King, 630 Toast of the Town,308 Tobacco companies,364, 429-430, see also Advertising Today show sponsorship sharing,363
Subject Index
Todayshow (cont.) television programming 1945-1952,308 1952-1960,358,359 1961-1976,441,442 1977-1988,529,538 Toguri, Iva Ikuko (“Tokyo Rose” Axis propagandist), 265 Toll broadcasting,75 Tom Corbett, Space Cadet, 311 Tom Mix, 191 Tonight show competitive pressures with Fox network,512 television programming 1945-1952,308 1952-1960,358,359,372 1961-1976,441,442 1988-2001,650 Tony Awards, 649 Top40 programming, 367-370, 409,432 Toscanini, Arturo (conductor), 130,181-182,242 Touched by an Angel, 648 Tour of Duty, 532,533 Towns, small, 329, 330, see also Rural areas “Trade” and “Mark” comedy team, 129 Traditional liberals, 559 “Trafficking”in licenses, 500-501, 737 Transatlantic “S,” 29 Transatlantic cable,11 Transatlantic radio broadcasts, 36,77 Transceiver, 226 Transcontinental telephone service, 13 Transcription service,181 Transistors, 408, 817 Translators, 325, 330,416 Transmission, wireless, 33-36 Transmitters, 34,71,815-816 Transmitting power, 71,109, 115,168-171 Transradio Press Service, 137, 193 Transtar Radio Network,513 “Trekkies” cult, 439 Trendex rating service, 384 Trendle, GeorgeW.(station owner), 174
’Rends, broadcasting, 455-457, 683-685 Treyz, Oliver (ABCexecutive), 422
Triangle Production, 508 Tribune Broadcasting, 500
Triode vacuum tube,32-33, 36,49, 59 Tropical Radio Telegraph Company, 39 Trout, Robert (CBSreporter), 238,725 Trowbridge, John(physicist), 26 ’ h m a n , President Harry S., 287,313,328 llhrth or Consequences, 200 Tuners, 383 Thing, radio, 38 Turner Network Television (TNT (cable)),507, 620421,622 Turner, Ted, seealso Cable News Network attempt to buyCBS, 511 Cable News Network(CNN), 516,540,708-709 cable programming,507,623 satellite communication, 412 TV Guide 1952-1960,398 1960-1976,476 1977-1988,501,508,517, 718 1988-2001,584,638,662 TVQ, 385 TVRO,see Television receiveonly antenna TWA Flight 847 hijacking, 544 12 o’C1ock High, 439 12-12-12 rule, 500 20th Century Fox, 508 20/20,543,658,659 ’Itventy-One,376,377,394,639 W i n Peaks, 648 2ZK, 45 Vson, Cicely, 621
U UAPRE, see University Association for Professional Radio Education, see also BEA UIB, see United Independent Broadcasters, Inc. Ultrahigh frequency (UHF) television stations advertising decline, 363 broadcasting future, 701 characterization, 820 intermixture and Sixth Report and Order, 329-330 regulatory confidencecrises, 387-391
971
Ultrahigh frequency (cont.) television allocation conflict with FM, 254,255-256 expansion, 351352. 415-416 first educationalstations, 361 freeze, 325-326,328 receiver market, 383 technological trade-offs, 689 Uncounted Enemy:A Eefnam Deception, The, 580 Underdeveloped countxies, 477
Underground stations, 433 Underwriting, 626, seealso Enhanced underwriting UNESCO (United Nations Educational, Scientific, and Cultural Organization), 587 Unions, 257,528,8164317, see also Individual entries United Churchof Christ, 463, 473 United Fruit Company,3940, 6041 United Independent Broadcasters, Inc. (m), 120, 121
United Kingdom, seealso British: Great Britain government controlof radio, 216 high-definitionldigital television, 605 public television, 630-631 television impact, 338 world changesin 21st century, 676 United Network, 422 United Paramount Network (UPN), 617,705 United Paramount Theaters
(UPT),288 United Press, 136,193 United Satellite Communications, Inc. (USCI),487 United Service Organization (USO), 242 United StatesArmy Signal Corps, 50 United States Court of Appeals, 462, 471, 557, 576,734 United States government, 10, 13, seealso Individual entries
972
Subject Index
United States House of Representatives, 546-547, see alsoCongress United States Information Agency (USIA), 400-401
United StatesNavy, 40-41,48, 50,62
United StatesOffice of Education, 427 United States Senate,547, see also Congress United States Supreme Court color television standards, 323
competition regulationin 1977-1988,576
FCC decisions cable regulation,4 6 7 4 6 8 chain broadcasting,259, 260, 736
Red Liondecision and Fairness Doctrine, 463466
regulation, 566 videocassette recording and rights regulation,578 United States military forces, 656
United Wireless& Telegraph Co., 32 Uni-tuning, 9 1 Universal Product Code reader, 555
Universal Studios v. Sony case, 578
University Association forProfessional Radio Education (UAPRE),398, see alsoAPBE and BEA University courses, 148 University of Chicago Roundtable, The, 200 Univision, 622 Untouchables, The,374,440 UPN, see United Paramount Network Upstairs, Downstairs,426, 630 UPT,see United Paramount Theaters Urban audiences,204-205 Urban bias, 168-169 U.S. Satellite Broadcasting (USSB),597 U.S. Signal Corps,24 U.S. Steel, 244 US.Steel Hour, 373 USA Network (cable),516, 620,621,622
USA Today, 582-583
USCI, see United Satellite Communications, Inc. USIA, see United States Information Agency USO, see United Service Organization USSB, see U.S. Satellite Broadcasting
Very high frequency(cont.) regulatory crises and UHF, 387-389
television allocation conflict,252, 255-256
expansion in 1961-1976, 351-352,415-416
educational stations, 328, 361
V Vacuum tubes, 34-36,817-818 Vail, Alfred (Morse partner), 10 Vail, Theodore (telephone entrepreneur), 12 Valenti, Jack (motion picture industry lobbyist),506 Vallee, Rudy,128 Valve (vacuum tube),34 Van Deerlin, Rep. Lionel,463, 562,563-564
Van Doren, Charles (quiz scandal figure),377,394, 395, see alsoQuiz shows Van Dyke, Dick (actor, comedian), 438 Van Voorhis, Westbrook (announcer), 135 Vance, Vivian (comicactress), 306,310
Vandenberg, Sen. Arthur, 198-199
Vaporware, 594 Variety, 100.148 Variety programming 1920-1926,83-86 19261933,148 1934-1941,183-192 1945-1952,242-243, 306-309 1961-1976,436 1977-1988,538 diversity, 128-129 Vaudeville, 83-86, 743 V-chip, 598,671,818
Ventura, MN Gov. Jessie, 652 Vertical blanking interval (VBI),494,495, 794, 810
Very high frequency(VHF) advertising, 363 channels in Canada and Mexico, 401 characterization, 819,820 expansion of FM, 413 intermixture and Sixth Report and Order, 329-330
political decision making,5
prehistory, 114 receiver marketin 1950s, 383
shift and technological trade-offs, 689 Vestigial sidebands,794,814 VHS and Super VHS,recording, 490,600-601 Viacom, 617-618, 706,737 Vic and Sade,132 Victor-RCA merger, 148 Victor Talking Machine Company, 120 Video commercialism,295-297 Video dialtone, 818-819 Video recording, 490-493, 599-601
Video recording formats,805 Video text devices,493-495 Video Toaster,601 Videocassette recorders(VCRs) audience, 551,555-556 broadcasting delivery, 600-601
changing technologies, 410-411
characterization, 804 competition pressure,509 future predictions,697 home video recording,490 motion picture productions, 584
programming programming, 662 control, 701 rights regulation,578 Videocassette rentals, 663 Videodisc, 491 Videotape, 275,434,435,539 Videotape recorders (VTRs), 348-349,410,694, 803 Videotex, 493,494
Vietnam, A Television Histoy, 520
Vietnam War,407,447,449, 532,533,579-580
Viewer’s Choice (cable),516 Viewtron, 495 Violence, television 1952-1960,386
Subject Index
Violence, television(cont.) 1961-1976,457458, 472473 1977-1988,557-558 1988-2001,636,670. 664-665 future, 730-731 V-J Day, 239 VNU publishing, 665 Voice of America (VOA), 263-264.339 Voice of Firestone, 309, 372 VTR, see Videotape recording
W W calls, 69 WZXMN, 159 WABC, 121,131 WABD, 290 Walker, Paul (FCC Commissioner and Chair), 210 Walker, Texas Ranger, 641 Walkie-Talkies, 226 Walkmen, 498 Wall Street Week, 521,632 Wallace, AL Gov. George, 446 Wallace, VicePresident Henry, 313 Wallace, Mike (CBSinterviewer), 579-580 Waller, Judith (NBC executive), 70-71 “Wdlpaper” format, 367 Walt Disney (animator, film studio and amusement park head), 357, 617-618,706 Walters, Barbara (ABCinterviewer), 444, 725 War news programming,195 radio, 47-50 television programming, 438439 wireless transmission, 49 War action-adventure. 243 War and Remembrance, 530 War Bond appeal, 234 War of the Worlds, 187-190 War Production Board, 228, 245 “Warbling banjoist,”see Godfrey, Arthur “Red” Ward, William Henry (telegraph experimenter), 25 Warner BrotherslLorimar, 722
Warner Brothers (WB) Network, 501, 705 Warner Communications, 501 Warner-Amex, 506 Washington Post, 451 Washington Week in Review, 521,632 Washington-Baltimore telegraph line, 10 Wasilewski, Vincent (NAB president), 472 Watergate scandal, 407, 451 Watts riots, 447 Wavelengths, 93 (see also Spectrum and Appendix B) Waves, propagation, frequency, wavelength, 8 2 1 WB, see Warner Brothers WBAI (New York), indecent program, 461 WBL (Detroit), 66 WBOE (Cleveland), 177 WBZ (Boston),68 WBZA (Spring6eld, MA), 68 WCBS (New York), 430 WCBW (New York), 229 WCRB (Boston), 346 WCVB (Boston), 471,613 WDY (Roselle Park,NJ), 68 We Hold These Zh~ths,234 WAF, 64, 77, 87,116-117, 118,131
Weakest Link, 639 Weather Channel,516,624 Weather Bureau (U.S.),43,93, 199,539 Weaver, Sylvester “Pat,” (NBC executive), 358, 359, 416 Webb, Jack(actorproducer). 3 74 Webster-Chicago (recorder manufacturer), 227 Weekend Edition, 519,628 Welles, Orson (actor-director), 135,187-190 Wells, Robert (FCC Commissioner), 461 Welsh, Joseph (attorney), 380 Wertheimer, Linda (NPR reporter), 628 West CoastTV production, 358 West 57th Street, 543,659 West Wing, The, 641-642,648 Westar satellite, 412,486, 513 Western Electric, 13, 14, 59 Western Union Telegraph Co., 10, 75,412 Western programming 1926-1933,135
973
Western programming (cont.) 1945-1952,311 1952-1960,371,372,373, 375-376 1961-1976,438 1977-1988,538 future, 722 Westinghouse Broadcasting Corp., see also Group W competition, 509 creation of NBC, 117 early radio receivers, 89 electronic television,161 GE patent disputes, 14 NBC swap, 359 RCA, 58-63,108 pioneering efforts, 65,67-68 television network acquisition, 617-618 Westmoreland, Gen. William, 580 Westwood One, 513-514,616 WFXT (Boston), 508 WGCB (Red Lion, PA), 464 WGI (Medford, MA), 45, 64-65, see also 1XE WGN (Chicago), 415 WGY (Schenectady, N Y ) , 68, 71,77 WGY Players, 88 WHA (Madison, W),4546, 64 What‘sMy Line, 311-312 WHDH (Boston), 470-471 Wheel of Fortune, 528 Wheeler-Lea Act of 1938,210 When Love Wakens, 88 White, Abraham (de Forest backer), 32 White, Joseph (singer),130 White, Maj.J. Andrew (radio promoter), 121,122 White, Paul (CBS news chief during WW E), 194 White, Vanna (letterturner), 528 White, Rep. Wallace H.,94-96 Whitehead, ClayT. (OTP director), 462 Whiteman, Paul (band leader), 309
Whitewater scandal, 660 Who Wants to Be a Millionaire, 638,639 Who Wants to Marry a Multimillionaire, 639 Why We Fight, 262 Wide World of Sports, 442, see also Sports programming
974
Subject Index
Wideband communications, 410
Widescreen techniques,399 Wile, Frederick William (commentator),135 Wiley, Richard(FCC Commissioner and Chair), 459,472-473,560, 603 Williams, Andy (singer),436
Williams, Monte1( M C and host), 649 Willkie, Wendell (presidential candidate, 1940), 199
Wilson, Flip (comedian),440 Wilson, President Woodrow, 58
WNCN (Chicago),415 WNET (New York),426 WNYC (New York),79,624 WOI-TV (Ames, IA), 292 Wolper, David(TV producer), 450
Women, 70, 725 Women’s serial drama, see Soap operas WOR (Newark, NJINew York), 109.193
Work, portrayal, 536-537 World changes in broadcasting in 21st century, 676-677 electronic media changesin 1977-1988.585-587
radio’s early impact,
Winchell, Walter (columnist), 312,374
Winds of War, The, 530 Wine, 524 Winfrey Oprah(talk show hostess, actress),528, 649,674
Wings over America,183 Wire services, 136,193 “Wired City”/”Wired Nation” concept, 410,469, 484,778
Wired interconnections, 96 Wireless communications, 694 fundamental discoveries conduction and induction, 22-26
radiation, 27-33 improvements, 33-38 cable, 488,504, see also Cable “Wireless Cable,”504 Wireless Ship Actof 1910.42, 43,69
Wireless Telegraph and Signal . Company, 30 Wirephotos, 110-111,112, 160,785
Wirth, Rep. Timothy,565 Wisconsin School of the Air, 123
WJZ (Newark, NJ), 68, 78,80, 83,117
WKRP in Cincinnati,538
WLBT (Jackson, MS),462463, 466473,737 WLS (Chicago),78,88
WLW (Cincinnati, OH), 171-172
WMAF (S. Dartmouth, M A ) , 77
WNBT (New York),231
100-102
television in 195Os, 399-401 television in 1961-1976, 476-477
World Premiere, 437 World Series, 87-88, see also Sports programming World a a d e Center disaster,
World
World War 11 (cont.) split-up of NBC and ABC formation, 231-232 stations: status quofor the duration, 228-231 World Wide Web,598,789 WPAN, 651 WPM (New York),500,503 WQXR, 346 Wrestling, 652, see also Sports programming Wright, Robert(NBC executive), 512 WTBS (Atlanta),503, 507, 584, 708
WTMJ (Milwaukee), 116,181 WTTG (Washington,DC), 290 WTTW (Chicago),426 WXPN (Philadelpha), obscene programming, 461 WWJ (Detroit),64-65, 66 Wyman, Jane (actress),536 Wyman, Thomas (CBSChair), 511
Wynn, Ed (entertainer),88, 129.298
591,679 War I, 36,4041, 48-49
World WarII advertising, 232-234 audience, 244-249 educational programming,
X Xena: WarriorPrincess, 645 X-Files, 618, 648 X-Minus-One,433
232
ending and news broadcasting, 239 innovations in recording methods, 226-228 postwar planningand wartime control allocation hearingsand decisions, 253-256 allocations conflict, 249-253
FCC investigates, 259-260 investigations of the FCC, 260-261
office of censorship, 258-259
Petri110 affair, 257 programming patriotism drama, 243-244 music and variety, 242-243
Y Yankee Network,159 Yankee Network News Service, 137
Yorkin, Bud( T V producer), 438
You Bet Your Life, 312 You Can’t Do Business with Hitler, 236
Young, Loretta(actress),310 Young, Owen D. (GEexecutive), 57-58 Young & Rubicam (advertising agency), 233 Your Hit Parade, 182,309, 372
Your Show of Shows, 306-307, 310,609
news, 236-240 Office of WarInformation,
z
235-236
other programs,244 political broadcasting, 240-241
radio transmissions,261-265
Zamora, Ronnie (murderer), 557,558
Zelig, 602
Subject Index
Zenith Radio Corporation, 203-204 allocation c o d i c t between televisiodFM, 254 pay-television, 279,280-281 phonevision system and pay-television debate, 353
Zenith Radio (cont.) Radio Act of1927,97-98 radio receivers manufacturer, 201, 203-204 television receiver manufacture, 316, 317
975
Zenker, Arnold (temporary anchor), 419 Zimmermann Telegram,48 Ziegfield, Florenz(theatrical producer), 113 Zworykin, VladimirK. (TV inventor, 1889-1982), 161,162,164