COMMERCIAL NEWSGATHERING FROM SPACE A TECHNICAL MEMORANDUM

Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 COMMERCIAL NEWSGATHERING FROM SPACE A TECHNICAL MEMi~RANDUM CONGRESS OF THE UNITED STATES r Olfice of Technology Assessment Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Office of Technology Assessment Congressional Board of the 100th Congress ORRIN G. HATCH Utah CHARLES E. GRASSLEY Iowa EDWARD M. KENNEDY Massachusetts ERNEST F. HOLLINGS South Carolina CLAIBORNE PELL Rhode Island WILLIAM J. PERRY, Chairman H&Q Technology Partners DAVID S. POTTER, Vice Chairman General Motors Corp. (Ret.) EARL BEISTLINE Consultant CHARLES A. BOWSHER General Accounting Office GEORGE E. BROWN, JR. California JOHN D. DINGELL Michigan CLARENCE E. MILLER Ohio DON SUNDQUIST Tennessee AMO HOUGHTON New York JOHN H. GIBBONS (Non voting) Advisory Council CLAIRE T. DEDRICK California Land Commission RACHEL McCULLOCH University of Wisconsin S. DAVID FREEMAN Lower Colorado River Authority MICHEL T. HALBOUTY Michel T. Halbouty Energy Co. CARL N. HODGES University of Arizona CHASE N. PETERSON University of Utah JOSEPH E. ROSS Congressional Research Service LEWIS THOMAS Memorial Sloan-Kettering Cancer Center The views expressed in this technical memorandum are not necessarily those of the Board, O'I'A Advisory Council, or individual members thereof. Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 COMMERCIAL NEWSGATHERING FROM SPACE A TECHNICAL MEMORANDUM CONGRESS OF THE UNITED STATES Ollke of Tseftnobyy Assessment Waehnplon, OC 20510-8025 ~. Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  .. .. ,. Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Recommended Citation: U.S. Congress, Office of Technology Assessment, Commercial NewsgatheringFrom Space -A Technical Memorandum, OTA-TM-ISC-40 (Washington, DC: U.S. Government Print- ing Office, May 1987). Library of Congress Catalog Card Number 87-619818 For sale by the Superintendent of Documents U.S. Government Printing Office, Washington, DC 20402-9325 (order form on p. 51) Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Foreword The news media have begun to increase the use of satellite imagery in reporting on world events. This has led some to believe that the media will soon wish to own and operate their own remote sensing systems dedicated to newsgathering. The media have generally supported the idea of a dedicated "mediasat" because it could supply a stream of timely and critical information, peering where repressive governments or dangerous natural environments have heretofore kept the press at bay. However, the mediasat concept has also generated concern. Some U.S. policymakers believe that the media's use of this potentially intrusive technology could create national security prob- lems, complicate U. S. foreign relations, and, perhaps, erode the average citizen's ex- pectation of personal privacy. In order to become more fully aware of the opportunities and risks associated with the media's use of remote sensing technology, the House Committee on Science, Space, and Technology requested the Office of Technology Assessment to examine this issue in a technical memorandum. This technical memorandum concludes that although the technology is available to create a mediasat system, the high cost and current low demand for remotely sensed data will limit media efforts to own and operate a dedicated remote sensing satellite system. Nonetheless, government and commercial remote sensing activities will con- tinue in this country and in other countries. These activities will provide the media with an increasing variety of sophisticated and relatively inexpensive remotely sensed images. As the media's use of such images increases, conflicts are certain to arise between the media's first amendment rights and certain U. S. national security and foreign policy interests. OTA concludes that such conflicts are ultimately manageable, but that the existence of foreign remote sensing systems (which can only be indirectly affected by U.S. laws) may require some international consultation. OTA was assisted in the preparation of this technical memorandum by many out- standing advisors anal reviewers. We express sincere appreciation to each of these in- diviuals and organizations. As with all OTA reports, the content of this technical memorandum is the sole responsibility of the Office of Technology Assessment and does not necessarily represent the views of our advisors or reviewers. JOHN H. GIBBONS Director Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Workshop Participants Harvey Brooks (Chairman of the Workshop) Professor of Technology and Public Policy Harvard University Bob Barker Director, Commercial Applications SPOT Image Corp. Jerry Berman Chief Legislative Counsel American Civil Liberties Union Mark Brender Assignment Editor ABC News Dino A. Brugioni Consultant Stillman Chase Assistant Manager Space Sensors Laboratory Hughes Santa Barbara Research Center Craig Covault Aviation Week and Space Technology Peter Fend President Ocean Earth Construction and Development Robert Filep Program Development, FSD Space Communications System TRW, Inc. Eilene Galloway Honorary Director International Institute of Space Law William Headline Vice President and Bureau Chief Cable News Network Roland S. Inlow Consultant John L. McLucas President and Chairman of the Board QuesTech, Inc. Albert C. Pierce Professor of National Security Policy Department of Military Strategy National War College Rita Ann Reimer American Law Division Congressional Research Service Gilbert Rye President COMSAT Government Systems, Inc. Walter B. Slocombe Caplin and Drysdale, Chartered Maj. Gen. Jack E. Thomas, USAF (Ret.) Consultant Matthew R. Willard Director Market Planning and Analysis EOSAT Thomas R. Wolzien Vice President Editorial Services NBC News Peter D. Zimmerman Senior Associate Carnegie Endowment for International Peace NOTE: OTA appreciates and is grateful for the valuable assistance and thoughtful critiques provided by the workshop participants. The workshop participants do not, however, necessarily approve, disapprove, or endorse this report. OTA assumes full responsibility for the report and the accuracy of its contents. Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 OTA Project Staff on Commercial Newsgathering From Space Lionel S. Johns, Assistant Director, OTA Energy, Materials, and International Security Division Peter Sharfman, Program Manager International Security and Commerce Richard DalBello, Project Director Ray A. Williamson Gordon Law Administrative Staff Jannie Coles Cecile Parker Jackie Robinson Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  L . ..,.. ~.... .... .,. Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Additional Reviewers Robert J. Aamoth, Esq. Pierson, Ball and Dowd Kim Ford Coffman Presidential Management Intern General Accounting Office Paul Kreisberg Director of Studies Council on Foreign Relations Phillip Kunsberg Assistant Deputy Office of the Under Secretary of Defense for Policy Earl S. Merritt Vice President Earth Satellite Corp. David H. Moore Natural Resources and Commerce Division Congressional Budget Office Lt. Col. J. David Patterson Air Force Fellow American Enterprise Institute for Public Policy and Research Charles Sheffield Vice President Earth Satellite Corp. Paul Uhlir National Academy of Sciences Space Science Board Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Related OTA Reports Civilian Space ? Space Stations and the Law: Selected Legal Issues. OTA-BP-ISC-41, September 1986. GPO stock #052- 003-01047-0; $3.75. ? International Cooperation and Competition in Civilian Space Activities. OTA-ISC-239, July 1985. GPO stock #052-003-00958-7; $17.00. ? U.S.-Soviet Cooperation in Space OTA-TM-STI-27, July 1985. GPO stock #052-003-01004-6; $4.50. ? Civilian Space Stations and the U.S. Future in Space. OTA-STI-241, November 1984. GPO stock #052- 003-00969-2; $7.50. ? Remote Sensing and the Private Sector: Issues for Discussion. OTA-TM-ISC-20, March 1984. NTIS order #PB 84-180 777; $4.50. ? Salyut: Soviet Steps Toward Permanent Human Presence in Space. OTA-TM-STI-14, December 1983. GPO stock #052-003-00937-4; $4.50. ? UNISPACE 82: A Contextforlnternational Cooperation and Competition. OTA-TM-ISC-26, March 1983. NTIS order #PB 83-201 848. ? Space Science Research in the United States. OTA-TM-STI-19, September 1982. NTIS order #PB 83-166 512. ? Civilian Space Policy and Applications. OTA-STI-177, June 1982. NTIS order #PB 82-234 444. ? Radiofrequency Use and Management: Impacts From the World Administration Radio Conference of 1979. OTA-CIT-163, January 1982. NTIS order #PB 82-177 536. ? Solar Power Satellite Systems and Issues. OTA-E-144, August 1981. NTIS order #PB 82-108 846. Military Space ? Anti-Satellite Weapons, Countermeasures, and Arms Control. OTA-ISC-281, September 1985. GPO stock #052-003-01009-7; $6.00. ? Ballistic Missile Defense Technologies. OTA-ISC-254, September 1985. GPO stock #052-003-01008-9; $12.00. ? Arms Control in Space. OTA-BP-ISC-28, May 1984. GPO stock #052-003-00952-8; $3.00. ? Directed Energy Missile Defense in Space. OTA-BP-ISC-26, Apri11984. GPO stock #052-003-00948-0; $4.50. NOTE: Reports are available through the U.S. Government Printing Office, Superintendent of Documents, Washington, D.C. 20401-9325, (202) 783-3238; and the National Technical Information Service, 5285 Port Royal Road, Springfield, VA 22161, (703) 487-4650. Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Contents Page Introduction ................................................................ 1 Principal Findings ........................................................... 2 Remote Sensing Technology and the Media ..................................... 8 Mediasat Described ........................................................ 8 The Media and the Uncertain Value of Satellite Imagery ....................... 11 Alternatives for the Media .................................................. 17 National Security and Foreign Policy .......................................... 30 National Security Concerns ................................................. 30 The Effect of Foreign Remote Sensing Systems on U.S Policies .................. 34 National Security and the First Amendment .................................... 35 Mediasat Restrictions and the First Amendment ............................... 35 The 1984 Landsat Act ...................................................... 36 Appendix A. The Technology of Newsgathering From Space ..................... 39 Appendix B. Media Access to and Use of Remote Sensing Data: A Legal Overview 45 Boxes Box Page A. A Remote Sensing Satellite System ......................................... 8 B. Why Remote Sensing Can Be Useful for Newsgathering ....................... 11 C. Spatial Resolution and Spectral Resolution ................................... 12 D. The Challenge of Timely Global Coverage ................................... 13 E. Remotely Sensed Data and News Presentation ............................... 16 F. The Status of Land Remote Sensing in the United States ...................... 19 G. Remote Sensing and the Public Interest .................................................................. 27 H. Mediasat and Personal Privacy ............................................. 36 Figures Figure No. Page 1. Landsat-5 Spacecraft ....................................................... 3 2. Artist's Conception of the French SPOT Remote Sensing Satellite ............... 4 3. A Remote Sensing System .................................................. 9 4. Data Processing and Interpretation .......................................... 9 5. Polar Orbit Provides Global Coverage ................................................................ 10 6. The Orbital Path of Remote Sensing Satellite Is Sun Synchronous ............... 14 7. The Earth Revolves 2, 752 km to the East Between Passes ...................... 14 8. Adjacent Swaths Are Imaged 7 Days Apart .................................. 15 Tables Table No. Page 1. Some Recent Uses of Remotely Sensed Images by the Press .................... 15 2. Remote Sensing Data Needs of Foreign and Domestic Users .................... 26 3. Summary of Applications of Landsat Data in the Various Earth Resources Disciplines ............................................................... 27 Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Photo credit: Copyright ?1987 CNES. Provided courtesy of SPOT Image Corp., Reston, VA Soviet Chernobyl nuclear reactors (circled) and surrounding cooling pond. This image, taken by the SPOT satellite, combines a 20 meter multispectral image with a 10 meter panchromatic image for greater clarity. Such images allow for ongoing monitoring of the Chernobyl area. _ Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 INTRODUCTION The U.S. news media'sl recent use of satellite images to cover such newsworthy events as the Chernobyl nuclear disaster, the Soviet "shuttle" launch site at Tyuratam, and the progress of the Iran-Iraq war has raised the possibility that news- gathering from space could become a routine and profitable commercial activity. Some media ex- perts have supported the concept of a mediasatz because it could supply a stream of timely and critical information, peering where repressive gov- ernments ordangerous natural environments have heretofore kept the press at bay. The mediasat concept has also generated con- cern. Some U. S. policymakers believe that the me- dia's use of this potentially intrusive technology could increase the visibility and risk of military operations, complicate U.S. foreign relations by angering allies and adversaries, and erode the aver- age citizen's expectation of personal privacy. Believing that "the use of space technologies by the media and the merging of traditional journalis- ticpractices with long-held national space policies has not yet been satisfactorily addressed," the House Committee on Science, Space, and Technol- ogy3 requested the Office of Technology Assess- 'This technical memorandum uses the terms "news media" or "me- dia" interchangeably to refer to both the electronic and the print media. The branches of the media are referred to separately only when their different needs would appear to dictate unique technol- ogy or policy choices. Except where otherwise indicated, the term media refers only to the U.S. media. :"Mediasat" is not an existing satellite system or business orga- nization. As used in this technical memorandum, the term "media- sat" refers to the concept of a satellite system and business organiza- tion that would routinely collect news and information for media use Erom space. 'Letter from The Hon. Don Fuqua, Chairman, House Committee on Science and Technology, to John H. Gibbons, Director, Office of Technology Assessment, Oct. 16, 1986; letter from The Hon. Bill Nelson, Chairman, Subcommittee on Space Science and Applica- tions, House Committee on Science and Technology, to John H. Gibbons, Director, Office of Technology Assessment, Oct. 7, 1986. ment to examine this issue. In response to the com- mittee's request, OTA contracted for papers on remote sensing technology, the media's needs and desires, the national security implications, and the legal issues associated with newsgathering from space.4 OTA held a workshop on December 18, 1986, to discuss these papers and to explore gen- erally the opportunities and risks of the media's use of satellite imagery. This technical memoran- dum relies heavily on, but is not limited to, the information found in the contract papers and the workshop discussion. Although the U.S. media currently make some limited use of satellite imagery, OTA is unaware of any serious planning to establish a mediasat organization. The purpose of this technical memo- randum is not to examine the feasibility of a spe- cific satellite system or business plan, but rather, to assess whether current government policy is appropriate to accommodate both current activ- ities and future developments. Because the media- sat concept is, for the most part, undefined, OTA was forced in this technical memorandum to make a series of assumptions regarding fundamental is- sues such as cost, markets, technical capability, and utility of a mediasat. Although these assump- tions are critical to OTA's conclusions, they are only "best guesses," based on the advice of ex- perts in the media and in the field of remote sens- ing. With regard to specific issues-such as the economic viability of a mediasat or its effect on national security and foreign policy-altering these underlying assumptions could dramatically alter the conclusions reached in this technical memo- randum. (In January 1987, the committee's name was changed to the Com- mittee on Science, Space, and Technology.) "A summary of the papers on remote sensing technology and le- gal issues are included in apps. A & B. Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  ... s .... ..~..~...... ...... ,.. ~, . Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 PRINCIPAL FINDINGS Finding 1 The media s experience with satellite imagery has thus far been extremely limited. Therefore, the precise value of satellite imagery to the media is uncertain and is likely to remain so until ex- perience and a more robust remote sensing mar- ket combine to define a stable demand for these data. The media have used and continue to use satel- lite images in their news gathering activities. Whether this limited use will blossom into exten- sive, routine use or even a dedicated "mediasat" organization will depend on: 1. the cost of remotely sensed data; 2. the demand for, and therefore the value of, "media-quality" images to the media and to other users; and 3. U.S. and foreign government policies regard- ing the collection and distribution of high- quality satellite images. Much of the current writing on the mediasat concept has stressed the desire for high resolution, timely delivery, and assured access to data. Al- though these demands follow logically from cur- rent newsgathering practices, they are not the product of detailed technical or economic research or of experience. It is important to recognize that, in the absence of such research or experience, the news media can have only an imprecise under- standing of the value of low- and high-resolution data and the value of real-time and delayed in- formation. Finding 2 The current commercial remote sensing systems, the U.S. EOSAT and the French SPOT, allow the media to experiment with satellite imagery but lack the high resolution, timely delivery, and assured access to data that some media experts feel could make satellite imagery an integral part of the news- gathering process. EOSAT (figure 1) and SPOT (figure 2) provide a relatively low-cost means by which the media could practice both using satellite imagery and working within current government policies. How- ever, existing commercial systems do not provide "timely access" or high resolution, primarily be- cause these capabilities are expensive and unnec- essary to meet the needs of the traditional pur- chasers of remotely sensed data. In addition, the media's access to data cannot be assured because the remote sensing companies currently depend on ground stations owned by other countries to collect certain data. Experience gained with the current commercial systems has shown that de- livery of data considered by a foreign government to be sensitive may be delayed or denied. Finding 3 It is possible to build a mediasat system with high resolution, timely global coverage, and as- sured access to data using current technology. Experts generally agree that costs and market uncertainties, more than technology, inhibit the establishment of a mediasat system. Media experts have identified high spatial resolution (5 meters or less) as the principal performance requirement for a mediasat. By comparison, the Thematic Map- per (TM) and the Multispectral Scanner (MSS) sen- sors on EOSAT's satellite provide 30 and 80 me- ter resolution, respectively. The French SPOT system provides 10 meter panchromatic (black and white) as well as 20 meter multi-spectral (color) imagery. Nonetheless, sensors capable of produc- ing 5 meter images are readily available and could be flown on existing spacecraft designs. To be effective, a mediasat needs more than high resolution; it must also be able to sense news wherever and whenever it occurs and to trans- mit the news rapidly to the news agency. A media- sat system would need at least two satellites to en- sure same day coverage of events around the globe. In order to receive data in near-real-time, a medi- asat system would need to have access to ground stations all over the earth, use on-board tape recorders, or use space-to-space communications similar to the National Aeronautics and Space Ad- ministration's (NASA) partially complete Track- ing Data Relay Satellite System (TDRSS). The technology exists to obtain high-resolution, near- real-time imagery; what is lacking is the clear fi- nancialjustification for employing this technology. Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 _.. .  Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Figure 1.-Landsat-5 Spacecraft ~~y Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  I _ ..~.._ ........ .. .~ Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Figure 2.-Artist's Conceptiion of the French SPOT Remote Sensing Satellite Finding 4 Although cost and market research have yet to be done, preliminary calculations indicate that the costs of a mediasat might exceed the expected rev- enues of such a system. To be financially viable, a mediasat would have to generate revenue sufficient to offset the costs of the system. Experts have estimated that a com- plete one or two satellite mediasat system (i.e., sensor, spacecraft, launch vehicle, data collection facilities, and image processing facilities) capable of 5 meters resolution, designed to operate about 5 years, could cost between $215 million and $470 million to establish and $10 million to $15 mil- lion ayear to operate. Even if each network used satellite images every day, only a few thousand images would be used per year; hence the system's development and operating costs could only be paid back if networks were willing to pay $35,000 to $73,000 per "story," an order of magnitude more than existing expenditures for daily news coverage. Nonetheless, should it turn out that OTA's cost estimates for a mediasat are dramatically over- stated (because the technology has become more sophisticated and/or less costly) or a very high demand (from the media and other data users) were to develop for satellite images, mediasat might become an economically viable concept. Finding 5 A mediasat would probably compound prob- lemsinherent in the management of national secu- rity and foreign policy in a spirited democracy; however, such problems would likely be man- ageable. Experts generally agree that the media's exten- sive use of high-resolution satellite imagery for newsgathering could complicate certain U.S. na- tional security activities and certain U.S. foreign policies. Experts disagree, however, about the na- ture and seriousness of these "complications," and the extent to which they differ from traditional tensions between the press and the national secu- rity and foreign policy communities. Although each is the subject of some contro- versy, national security experts consulted by OTA identified five areas where a mediasat could com- plicate U.S. national security and foreign policies. The media could: 1. disseminate information regarding U.S. mil- itary operations, thereby depriving U.S. troops of the critical element of surprise; 2. reveal information considered sensitive by foreign governments, thereby prompting them to retaliate against U.S. Government activities, assets, or personnel; 3. provide valuable intelligence to countries cur- rentlylacking their own reconnaissance sat- ellites; 4. reveal facts about an unfolding crisis, mak- ing it more difficult for government leaders to act calmly and responsibly; and 5. misinterpret satellite data in such a way as to precipitate a crisis. SSome of the costs of a mediasat could be offset by selling data to map makers, geologists, agricultural planners, and other current users of remotely sensed data. Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Photo credit: Copyright ?1987 EOSAT. Provided courtesy of EOSAT. Washington, D.C., and surrounding area-Thematic Mapper band 4 is used, and illustrates major areas and buildings of the downtown area. For example, the Washington Monument, Pentagon, Capitol, and National Airport can be seen. The most common media response to all of these allegations is that, although a mediasat could pro- vide asubstantial new source of data, the media's extensive contacts and information sources within the United States and around the world already provide the press with near-real-time information concerning fast-breaking news stories. The U.S. media are also proud of their "track record." They assert that where lives have been at stake or seri- ousnational security issues have been raised, they have cooperated with the government by with- holding information until the danger or sensitiv- ity has passed. Finally, some national security and media experts argue that granting the media ac- cess to high-resolution satellite data could have a stabilizing influence, in that nations would realize that aggressive actions would be seen and reported throughout the free world. Finding 6 Within a decade, many nations will have their own remote sensing systems. It is unclear whether the U.S. Government could effectively limit or control media access to satellite imagery if for- eign governments do not exercise similar controls. The almost assured proliferation of sophisti- cated, government-owned, remote sensing systems has caused many analysts to question the practi- cality of attempting to regulate the media's use of satellites to gather news. Some experts main- Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  .. ~ .. .. ...a .,~... ... .,. . ~ a, . Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 tain that since U.S. laws would not be applicable to foreign systems, U.S. news agencies could by- pass U.S. restrictions by purchasing data from, or investing in, foreign remote sensing systems. Others disagree, arguing that foreign remote sensing systems-either as a result of financial constraints, less sophisticated technology, or a country's own domestic policies-might have lim- ited resolution. Therefore, it is possible that, with minimum intergovernmental coordination, the United States could substantially delay the time when the media would have access to very high- resolution satellite images. Finding 7 Government attempts to limit access to or use of satellite imagery would likely result in first amendment challenges to such limitations. The outcome of these challenges would turn on the exact nature of the government limitations and the Supreme Court's ultimate determination of the status of newsgathering activities under the Con- stitution. Should the U.S. Government desire to inhibit a media-owned satellite from gathering potentially sensitive information it could-either permanently, through the licensing procedures established in the 1984 Landsat Act, b or temporarily during a crisis -attempt to limit: 1. the resolution of the satellite's sensors; 2. the images that the satellite is allowed to col- lect; or 3. the images the media are allowed to dis- seminate. The 1984 Landsat Act requires all remote sens- ing system operators to obtain a license from the Secretary of Commerce, who is charged with the duty of ensuring that applicants comply with the "international obligations and national security concerns of the United States." Some media rep- resentatives have argued that such licensing pro- visions should be declared invalid because they are not drafted with the narrow specificity required of statutes affecting first amendment interests. The validity of this point of view will rest heavily on the Supreme Court's ultimate determination of the status of newsgathering activities. If newsgathering is given the degree of first amendment protection afforded traditional speak- ing and publishing activities, the licensing proce- dureestablished in the Landsat Act and future re- strictions on mediasat activities might be regarded as impermissible "prior restraints" on free speech. The doctrine of "prior restraint" holds that ad- vancelimitations on protected speech may not be "predicated on surmise or conjecture that un- towardconsequences may result."' Prior restraints are allowable only if necessary to prevent "direct, immediate, and irreparable damage to our Nation or its people."8 On the other hand, should the Su- preme Court hold that news gathering was deserv- ing of some lesser degree of protection than pub- lication of information already obtained, the government would have considerably more lati- tude to limit mediasat activities. Restrictions on the dissemination of information already gathered would, of course, receive the full protection of the first amendment. If the media do not own a satellite system, but rather rely on a commercial company such as EOSAT to provide them with data, it would be less clear whether the media could successfully ar- gue that licensing restrictions violate their first amendment rights. Should the U.S. Government ask EOSAT to stop distributing raw data for a few days during a crisis and EOSAT agreed, the news media might have a case against EOSAT for breach of contract, but their case against the U. S. Government for infringing their first amendment rights would be less clear. Finding 8 Should the U.S. Government wish to encourage the eventual development of a U.S. mediasat in- dustry, it should continue its support fcsr the U. S. Landsat system; such support would likely require sizable subsidy for a period of years.9 'Justice Brennan concurring in, New York Times Co. v. United States, 403 U.S. 713, 724 (1971). BJustices Stewart and White, concurring, New York Times Co. v. United States, ibid. ?The funding problems and opportunities of the Landsat program and EOSAT are beyond the scope of this paper. In reaching this conclusion, OTA drew upon its previous work. See: U.S. Congress, Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 A mediasat industry is less likely to develop in the United States if the media must shoulder the entire cost of the "infrastructure" needed to sup- Office of Technology Assessment, International Cooperation and Competition in Civilian Space Activities, OTA-ISC-239 (Washing- ton, DC: U.S. Government Printing Office, July 1985), p. 15; U.S. Congress, Office of Technology Assessment, Remote Sensing and the Private Sector: Issues for Discussion-A Technical Memoran- dum, OTA-TM-ISC-20 (Washington, DC: U.S. Government Print- ing Office, March 1984). port its occasional use of satellite images. If, on the other hand, there already existed in the United States a strong "value-added" industry-small firms expert in the interpretation and visual pres- entation ofdata-and a large pool of experienced photointerpreters, the mediasat concept would be- come more viable. A robust value-added indus- try and a cadre of experienced photointerpreters are more likely to develop if the United States has a healthy land remote sensing industry catering to diverse scientific and commercial needs. Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 REMOTE SENSING TECHNOLOGY AND THE MEDIA Mediasat Described At present, the news media obtain data from two commercial remote sensing systems, EOSAT -formerly the U.S. Government's Landsat sys- tem10-and SPOT, a French system.ll Neither of these commercial systems was designed to meet the specific needs of the media and neither firm has plans to buy new satellites or alter its busi- nessstructure to allow it to meet these needs. Con- sequently, media experts have begun to examine the feasibility and desirability of a "mediasat;" a spacecraft owned and operated-in whole or in part-by the news media and dedicated to news and information gathering activities [see box A and figures 3 and 4; box B and figure 5]. Although individual conceptions of a "mediasat" vary, as it is most often described, a mediasat would dif- fer from the current commercial systems in three important ways: 1. Spatial Resolution: Spatial resolution of 5 meters or less [see box C] is often identified as the principal performance requirement for a mediasat.12 By comparison, the TM and the MSS sensors on EOSAT's satellite yield 30 and 80 meter resolution, respectively. The French SPOT system provides 10 meter pan- chromatic as well as 20 meter multispectral imagery. At present, neither SPOT nor EOSAT has plans to fly sensors capable of approaching the 5 meter resolution sought by the media.13 10For a history of the U.S. Landsat system and the details of its somewhat stormy transfer to the private sector, see: U.S. Congress, Office of Technology Assessment, Remote Sensing and the Private Sector: Issues for Discussion-A Technical Memorandum, OTA- TM-ISC-20 (Washington, DC: U.S. Government Printing Office, March 1984); National Research Council Space Applications Board, Remote Sensing of the Earth From Space: A Program in Crisis (Wash- ington, DC: National Academy Press, 1985). "The French Government controls the SPOT satellite and a pri- vate French company, Spot Image, S.A., and its American subsidi- ary, Spot Image, Corp., market the data. '=At the workshop it was clear that the media's desire for sensors allowing a resolution of 5 meters or less is not based on experience or research. The exact number is flexible and could be more accurately stated as "that degree of resolution which is better than either the SPOT or EOSAT systems but which is still affordable." "It is important to note the relationship between resolution and the width of coverage (swath width). Had the French chosen a 20 km by 20 km swath width instead of their current 60 km by 60 km coverage, they would have had a resolution of 3.3 meters, assuming the same number of minimum picture elements (pixels) in their sen- Box A.-WA Remote Sensing Satellite System A renitote sensing satellite system consists of four major components, each of which. is crib- cal to producing useful data: The Spacecraft, Sensors, and Transmitters: The spacecraft provides a stabilized plat- form and power for the sensors and their optics, the receiving and transmitting an- tennas, and the associated electronics nec- essary to control the spacecraft and to de- liver data to Earth. Some remote sensing spacecraft may also carry tape recorders to store data until. the spacecraft is within sight of a receiving. station. The Receiving Statiozt and Other Commu- nications C?mponents: A ground station may receive data in digital form directly Pram the satellite as it passes overhead, or, if the satellite is not in a position to c~m- municate with the ground station, through a system equivalent to NASA's 3-.satellite Tracking and Data Relay Satellite System. {TI)RSS}. * In the latter case, data are passed Pram the remote sensing satellite to a c~m- municationsatellite in geasynchronous orbit and then retransmitted to a ground facility. From the ground facility, the data are then passed directly to a processing laboratory. The Data Processing Facilities: Before the raw data can be converted into photographic images or computer tapes capable of being analyzed by the end user, they must be proc- essed to remove geometric and other distor- tions inevitably introduced by the sensors: Far the pu~oses of newsgathering, hgh- speed mainframe computers may be required to process the data from current spacecraft.. Interpretation of the IJ'ata: After the raw data are processed and converted to cam- pater tapes ar photographs, they must be interpreted. Part of the interpretation proc= ess may involve merging or integrating other data either directly on the computer tape, or comparing such data with photographs. At this stage,: computer analysis could be performed by micro- or mini-computer. A variety of advanced techniques (see box G} are available to turn remotely sensed data into new products far different users.. ------ Approved For Release 2011/08/15 :CIA-RDP05T02051R000200260001-0  Figure 3.-A Remote Sensing System Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Tape storage Data handling Command receiver Command & control Initial processing Data processing Initial data tape ? Calibration. + Radiometric correction + Geometric correction + Formatting Data processing Relay satellite ommunicatlons components pate interpretation pisptays Photos Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Information processing and interpretation  Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Figure 5.-Polar Orbit Provides Global Coverage Ground track 2. Timely Global Coverage: To be most effec- tive, a mediasatwould have to deliver news in a matter of hours from anywhere on the globe [see box D and figures 6-8]. Neither the satellites nor the business structures of EOSAT and SPOT are designed to produce imagery that quickly. Such timeliness would require new ground processing techniques continued from page 8 sor array. Reducing swath width, however, would have greatly in- creasedthe time it takes to obtain global coverage with one satellite. It would also have reduced the synoptic view desired for many other uses of the data. and delivery methods and at least two satel- lites and supporting communication facilities to ensure that the media would have the op- portunity to image every spot on Earth at least once a day. 3. Media Control Over System and Products: EOSAT and SPOT, although commercial systems, receive substantial financial support and guidance from their sponsoring govern- ments and rely on the cooperation of those countries that maintain ground stations (see the following section, National Security and Foreign Policy). As a result, issues such as Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 --  __ i i Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Box B.--Why Remote Sensing Can Be Useful far lVewsgathering From. the technical standpoint, remote sensing from space provides data users with several key features: + ability to view remote, difficult, or denied terrain.; + view unaffected by political boundaries; + synaptic view of large portions of Earth's surface; + the possibility of near real-time data recovery; + signals suitable far digital storage and sub- sequent computer manipulation into news- ready imagery; + repetitive coverage over comparable view ing conditions; ? selected. combinations of spectral bands far identifying and analyzing surface features. In addition, data from space provide the fallow- ing advantages: ? Convenient Historical Record; Stored an MagneticMedia and Photographs: Each im- age establishes a baseline that is of critical importance in recognizing the inevitable environmental and other changes that oc- cur aver time. + Tovl for Inventory and Assessment; Satel~ life images could be used whenever a major natural ar technological disaster strikes an area and massive breakdowns of eommu- ncatian, transportation, public safety, and health facilities, prevenk the use of normal means of inventory and assessment. ? Predictive Tvvl; Properly interpreted fm- agerycan beused topredct the onset of nat- ural and. technological. disasters.. ? Planning and Management Tool: Imagery can be used for a variety of planning and management purposes. SOURCE: Office df Technology Assessment, 1987. limitations on sensor resolution and the re- lease of sensitive data can be strongly influ- enced by government policy. A successful U. S. mediasat would have to eliminate such government intervention to ensure the de- gree of independence the media now enjoy in their other news gathering activities. The Media and the Uncertain Value of Satellite Imagery During the course of the OTA workshop, it be- cameclear that with the exception of certain trade publications and the magazine Aviation Week and Space Technology, the media's experience with satellite imagery-excluding weather satellite imagery-has been extremely limited (table 1). As a result, the media-especially the major television networks-have no clear idea of the type of im- agery they want, how much they might need, or how much they are willing to pay. In short, the value of satellite imagery to the media is, at present, uncertain and is likely to remain so until experience and a more robust remote sensing mar- ket combine to define a stable market for these data. ~' Fundamental to this issue of uncertainty are questions concerning the type and quality of data needed by the media. Several of the media repre- sentatives at the OTA workshop brought exam- ples of how SPOT and EOSAT data have been used in recent news broadcasts. After viewing sev- eral such news stories, one workshop participant commented that, The pictures themselves are unremarkable .. . most of these pictures are essentially illustrations of a story that you have to make up. This comment goes to the heart of the media's problem-does it need images that the viewer can identify and interpret, or is there value in images that, although not identifiable by the viewer, hold important information when interpreted by an ex- pert? One panelist noted, It is important to distinguish between informa- tion that has to be interpreted and ...material the viewers at home ...could draw their own conclusions from. There is obviously much more value in material that does not require interpre- tation. "It is interesting to note, however, that the media's use of remote sensing imagery has increased substantially since the launch of the higher resolution SPOT satellite. This suggests that at even higher resolutions, such as 5 meters, there could be another substantial in- crease in the demand for satellite imagery. Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  l l I I I I II I I I l l I I, I I. I II II I Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Box C.----Spatial Resolution and Spectral Resolution Spatial resolution refers to the ability of an optical device, such as the sensor of a remote sensing space- craft, to segarate objects of a given size. An instrument of high resolving power can segarate two small objects very close together, or resolve the image of relatively small features on a larger object. For example, a spatial resolution of ~ meter {approximately 39 inches} could allow a viewer to distinguish between an automobile and a bus, but such resolution might not allow one to distinguish between an automobile and a pickup truck. The best resolution available on images formed by civilian remote sensing satellites is the ZD-meter resolution offered by the sensors and optical systems on the French SPOT satellite. * Such resolution allows one to see individual buildings and streets in a city landscape. It also permits one to pick out semi-trailer trucks on the streets or ships at a dock. It would generally not make it possible for the viewer to distinguish between the image of two semi-trailer trucks parked side by side and a building of similar dimensions, because the images of the two trucks would merge. Overall resolution is limited by the resolving power of the sensor's individual picture elements. The minimum picture element, or pixel, of SFOT data, for example, corresponds to 10 meters {approximately 33 feet} on the ground. No amount of simple magnification of the remotely-sensed image will improve the resolution beyond this. minimum pixel size. For an object with dimensions less than 10 meters, the sensor will effectively spread out the light emanating from such an object so that it is impossible to determine the position of the object within the 10 meter pixel. Structural details of the object will also be spread out. in a similar manner. However, knowledge of the general terrain, the detailed characteristics of particular objects, and ex- perience in photointergretation, can vastly improve an interpreter's ability to understand the details of an image. In addition, sophisticated. and costly computer processing can improve on the theoretical resolution of an image by as much as a factor of 2.** Although the spatial resolution of a sensor provides a general guide to its ability to "see" objects on the ground, photointerpretersore also concerned with spectral resolution, Since all objects reflect light differ- ently, an object's color or its contrast with the background environment can also be used to distinguish it. For example, the Great Wall of China is wide enough to be detected on Landsat TM images {resolution of 3Q meters, or 98 feet}. However, because the wall is nearly the same color as the surrounding countryside,. it is extremely difficult to pick out in certain Landsat spectral bands. On the other hand, it is often possible to see a bridge or roadway of less than 30 meters wide when their contrast with the surrounding water or earth is extremely high. In effect, the bridge or road tends to "fill" each pixel with its reflected light, and because there are many such pixels spread out in a line across the scene, the eye links them together. Because objects that appear to have similar color characteristics as seen by the naked eye reflect light some- what differently in different parts of the spectrum, it is often possible to distinguish objects on the image by subtracting the different color bands from one another. In this way, a field of corn can be distinguished from a field of soybeans, even though the sensors are incapable of resolving individual plants. *Early in their program, France considered building a system of higher resolution that could be used by both civilian and military data users. How- ever, because of high costs and other priorities for research and development Eunds, it deferred ouch a program. *"See John A. Adams, "t`ounting the Weapons; ' 16 $peCtrttYr;, July 1988, gg. 48-56, for a general discussion aE spectral and spatial resolution. Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  I ~1~__~_--- - ~.L L - -- -- - - -- Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Box D,--The Challenge of Timely Global Coverage The Landsat satellite travels in a near-polar orbit at a distance of 7A6 kilometers and circles the Earth every 98..9 minutes. The SPOT satellite flies in a similar orbit, 832 kilometers above Earth, with an orbital period of 101.5 minutes. Because Earth is spinning, as a satellite travels from pale to pole, it flies over a different part of Earth on each orbit, hash of the two I.andsat spacecraft, for example, passes over the same portion of Earth at the Equator once every 16 days. {Near the pales, the "footprint" of its sensors overlap in successive orbital passes, covering the same portion of Earth in as few as 8 days.) SPOT repeats its orbit only once every 26 days. However, because the SPOT sensors can be pointed to the side (off- nadir), their ability to sense a particular area on Earth in successive passes is substantially increased. The SPOT sensors can revisit a site 7 days out of 26. The ability to point its sensors also allows the SPOT satellite to take quasi-stereo images. For the purposes of a mediasat capable of providing daily coverage of the Earth, it is necessary to have several identical satellites with pointable sensors to ensure that one is always in position to see the area of interest. ` Delivering the data collected to Earth far processing.. is an important part of the overall process of land remote sensing. Because the satellite orbits the Earth, for some part of every orbit it will not be within "sight" of national ground stations. A satellite system must have one or more of the following capabilities: 1. tape recorders to stare data until they can be played back. as the satellite passes aver a ground station, 2. space-to-space communications such as NASA`s Tracking and Data Relay Satellites {TDRSS} to pass the information around. the globe and then to Earth, or 3. ground stations in many foreign countries to ensure that data collected over other countries are eventually passed back to national territory:. None of these alternatives is without difficulty: high-capacity space-rated tape recorders have a high fail- ure rate, historically, and are still not regarded as reliable; TL7RSS cannot yet provide worldwide coverage (the second of three Critical. satellites was destroyed along with the Shuttle Challenger in January 1986), it is expensive to use, and commercial users currently receive very low priority; finally, receiving data from foreign ground stations can be slow and subject to political interference, One of the mast substantial impediments to timely delivery of imagery is the effects of Clouds.. On any one day.., substantial portions of the Earth's surface are covered by clouds. Some areas can be obscured for weeks or even months at a time. Other areas are difficult to see even in "clear" weather as a result of smog or other obscuring atmospheric problems, Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Figure 6.-The Orbital Path of Remote Sensing Satellite Is Sun Synchronous Attitude = l05 krn (nomthal) Each pass of the satettite crosses the equator at the same time (9:d5 arrt) Figure 7.-The Earth Revolves 2,752 km to the East (at the equator) Between Passes Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  -- - ~- ~l . J _.- - - _ ,L1_ L --- -- - Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Figure 8.-Adjacent Swaths (moving westward) Are Imaged 7 Days Apart i; ~~ orbs en day 1 aay 2 day 3 daY 4 ~~~? day s day 8 daY 7 tlwv A day 9 I ' I ~ ~. day 7f3 ..~ day 11 daY 12 day 18 day ice' Table 1.-Some Recent Uses of Remotely Sensed Images by the Pressa Television news Date Event April 1985 Iran/Iraq border area-ABC. ' Janauary 1986 Libyan military airfield and SA-5 sites-ABC. February 1986 Naval facility at Murmansk-ABC. April 1986 Chernobyl nuclear plant-all networks. July 1986 New York City harbor-ABC. July 1986 Soviet nuclear testing facility at Semipalatinsk some 1800 miles southeast of Moscow-ABC, CBS, CNN. August 1986 Soviet shuttle facility at Tyuratam in central USSR-ABC. October 1986 Soviet Submarine base at Gremikha-Swedish television. January 1987 Iran/Iraq war-ABC. April 1987 Soviet radar facility near Krasnoyarsk-ABC. Newspapers, magazines March 1986 Libyan SA-5 sites and military bases-New York Post- April, May 1986 Chernobyl nuclear plant-many newspapers, magazines September 1986 U.S.S.R. Kola Peninsula-Jane's Defense Weekly October 1986 Soviet cosmodromes at Plesetsk and Baikonur-National Geographic. March 1987 Soviet Navy base at Murmansk and Soviet Air Force base at Severomorsk-Aviation Week and Space Tech- nology. b March 1987 Pakistani nuclear processing facility-London Sunday Observer aThese citations are representative only. The news media have put remote sensing data to many other uses. bAviatlon Week and Space Technology pioneered the use of remotely sensed Images from space. Since 1974, the journal has published more than 22 major news stories based on remotely sensed Images. SOURCE: Office of Technology Assessment, 1987. _ Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Other panelists generally agreed with this com- ment and emphasized that material requiring inter- pretation is similar to a "source story;" that is, a story based on inside or expert information but lacking images to allow the viewer to draw his or her own conclusions. Although useful in the print media, "source stories" have a more limited value in television news where the viewer expects the picture to tell the story [see box E].15 'gone panelist felt that the attention given to the issue of "source stories" was unwarranted. He maintained, "Those of us who have lived through the technological developments that have affected the media over the last tenor twenty years would never attempt to neatly categorize the potential uses of remote sensing. Experience tells us that every time a significant technological advance has been made, ' its early planned uses either became secondary or were lost in the huge quantity of additional applications that developed once ex- perience had been gained. Remote sending will simply open up a variety of options to illustrate all sorts of stories in different ways and in different media." One panelist commented that the media "clearly had a lot of homework to do,"but that this learn- ing process could proceed in stages. First, he sug- gested that the media should gain as much experi- ence as possible working with current satellite images and within current government policies. This would allow the media to define the kinds of news stories that would gain from "eye in space" graphics every day. Second, the news media should test the ability of SPOT, EOSAT, or some other source of data to meet their needs. Third, , examine the attitudes of readers and viewers toward the use of these new graphic displays to reach some conclusions regarding the compara- tive values of high- and low-resolution data. Fi- nally, when they had gained sufficient experience regarding both the value of current imagery and the cost and future demand for high-resolution Box E,--Remotely Sensed Data and News Presentation Remote sensing will open up a variety of options to illustrate stories indifferent ways. and in different media. In particular, the news media will likely use satellite images to provide background information for stories and to illustrate the story directly. To elucidate this difference, imagine using images gathered from space to support a story that a country is amassing aircraft and other materiel on its border, possibly in preparation for invading its neighbor. Three broad levels of resolution capacity lead to different catego- ries of stories: 1. Story Requiring Extensive Analysis of the Image: If the news media had access to images of 3d me- ter resolution, they could run a story showing a somewhat grainy image of runways and an amor- phous mass of bright spots that, in the opinion of an expert photoin#erpreter, represent a buildup of aircraft. ZBy carefully examining the images, the photointerpreter might be able to offer some judgments about the categories of aircraft and other objects reflected in the image, In such a case..,. however, the images convey little ar no information to the untutored viewer, because from the. m- age alone, he or site can make no independent confirmation of the expert's judgment. 2. Mixed Story. At 3.0 meter resolution, the image of the runway would appear much sharper and .might even reveal navigation markings.;In addition, large aircraft, such as cargo planes, would be readily identifiable as aircraft to the lay: viewer, ante the newscaster had drawn the viewer`s atten- Lion to them. Smaller aircraft, such as fighters, would :still appear as=amorphous shapes to the un- formed observer. To be understood by the viewer, such an image would still require the analytical. judgment of a photointerpreter. 3. Story Allowing the Viewers To Draw Their Own Cor:elusions About the Images. 1#, however, a mediasat existed with a resolutiort of much better than 5 meter, the evening newscast might be able to show a variety of aircraft on the runway, and perhaps even large objects being unloaded from cargo planes. In such a case, the'irnage itself might carry most of the story, because viewers would be-able to recognize that: it contained many aircraft of different sizes and could draw :their own conclusions about the country's intentions, especially as the media's audience becomes more so- phisticated about viewing imagery from space. In all three cases, photos or drawings of the various types of aircraft exist,. and these could be shown on a split screen, with a news reporter or" expert analyst pointing to relevant details,. Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 --  Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Cam Ranh Bay, Vietnam port facility. Combatants shown in this image are the Foxtrot diesel-powered attack submarine, the Echo nuclear-powered cruise missile attack submarine, the Kashin destroyer, and the Grisha frigate. Photo resolution estimated to be about 1 meter. imagery, the media could then make an informed judgment regarding the practicality of pursuing the mediasat concept. The media's difficulty in assessing the value of satellite imagery is reminiscent of problems en- countered by scientists in the 1970s when they first began to experiment with the Landsat data. Many experts believed then that with a little experience and a little. government support, remote sensing could become a thriving commercial industry. It is instructive to note that, after nearly 15 years of experimentation, the overall market for re- motely sensed data is still weak. This is true even for applications such as minerals exploration, for- estry, and agriculture, where the history of experi- mentation demonstrates that remote sensing from space is cost effective compared to other means of gathering similar information.lb '"See: Remote Sensing and the Private Sector: Issues for Discus- sion, op. cit., ch. 4, for a discussion of the developmet of the market for remotely sensed data. Alternatives for the Media The media have at least two choices should they decide to increase the use of satellite imagery in their news coverage: 1. they could continue to use the images pro- vided by the current commercial systems; or 2. they could fly their own satellite or a sensor on a host satellite. Although these choices are not mutually exclu- sive they vary drastically in cost and complexity. Use of EOSAT and SPOT Images Several panelists bluntly stated their belief that the concept of a media-owned satellite system was "just not economical" today, and that, "The best way to go is to get the [EOSATs and SPOTS] of the world to supply the data that the media need." Although certainly the simplest and most economi- calpath for the media to follow, the current com- Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 ~. _ Photo credit: U.S. Department of De)ense Cam Ranh Bay, Vietnam airfield. This photo, taken from an aircraft, was released Feb. 9, 1987, by the Department of Defense to refute Soviet and Vietnamese denials of the existence of Soviet forward?deployment bases in Vietnam. Shown in this image are Soviet TU?95 Bear aircraft, TU-16 Badgers, and Mig-23 Flogger aircraft. Photo resolution estimated to be about 1 meter. mercial systems cannot provide timely access to data, assured access to data, and high resolution [see box F]. The workshop discussed two aspects of the time- ~I liness issue: l) the problem of getting the data from the satellite to the media user; and 2) the need for the human resources to interpret the data.l' On "Both of these problems were illustrated by one newsman's ex- perience in trying to obtain and use the satellite images of Cher- nobyl. He recalled: "I remember working the phones all day trying to get the Chernobyl images and finally at three in the afternoon they arrived and everyone was excited and we looked at the images and said, 'what the hell are we looking at?' So I called up EarthSat, the image processing company, and I said, 'Hey, can you send some- body down and help us interpret this stuff7' He said, 'Well, we can do it next week.' You know they're used to dealing with geologists. I said, 'Next week? I'll send a helicopter this afternoon.' " the subject of timely access to data, one panelist pointed out that neither SPOT nor EOSAT is de- signed to meet the particular needs of the news media. The Landsat system, now operated by EOSAT, had been agovernment-designed research system that was never expected to deliver data rapidly. "If you call today and ask for a scene from last year, EOSAT may be able to get it to you within a week if it's already been processed," the panelist commented, but "if it's unprocessed it takes 4 to 5 weeks." The panelist pointed out that EOSAT had been able to provide the Chernobyl images in 24 hours only because it was lucky enough to have a satellite in position and it had been willing to suspend all its other activities. Most Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  -- -___ ~. I -~ --- _~.L1-L -- ------- - - --- Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Box F.--The Status of Land Remote Sensing in the United States The value of viewing Earth from space to provide crucial resource and environmental information an the atmosphere, oceans, and land masses was recognized early in this Nation's development of space technology. Twv years after the National Aeronautics and Space Act of 1958 was signed, the United States received its fast images from space, taken by the polar-orbiting weather satellite called the Television and Infrared Observation Satellite (TIROS}. Today the TIROS satellites, and their geostationary cousins, the Geostationary Orbiting Environmental. Satellites {GOES) continually monitor weather systems within. their field of view. Originally developed by NASA, both systems have been operated by the National Oceanic and Atmospheric Administration (NOAA) since 1970.. NASA designed and built the Landsat system in the early 1970x. Landsat 1 {originally called the Earth. Resources Technology Satellite} was launched in 1,972, followed. by Landsat 2 and 3 in 1975 and 1978. All three satellites carried a multispectral scanner {MSS} capable of a spatial resolution of 80 meters in four spectral bands. The output of this sensor, transmitted ko Earth, then corrected and stored, constitutes the primary archival library of Landsat data, extending back to 2972. Landsat 4, which NASA launched in 1982, Carries bath the MSS sensor and the mere powerful Thematic Mapper {TM), capable of 30 meters resolution in 6 spectral bands, and 120 meters resolution in the near infrared.. An identical Landsat 5 was launched in 1984, after Landsat 4 began tv experience technical difficulties. Both satellites still provide broth MSS and TM data, although Landsat 4 is limited in the amount of TM data it can transmit. In the late 1970x, believing that the development of land remote sensing would fare better in the pr- vate sector, the Carter administration began #a plan for the eventual transfer of the Landsat system to pr- vate ownership. The first stage in that process was to transfer the control ever the system to NOAA,~` Transfer to NOAH was completed in 2.9$4. The Reagan Administration decided early in its tenure to has- ten the process of transfer to the private sector. In January 1984, the Department of Commerce released a request for proposal (RFP) designed to solicit offers from private industry tv own and operate the Land- sat and any follow-on civilian remote sensing system... Concurrently, Congress began. to develop legislation to promote the transfer to private ownership and operation. The goal of both efforts was to assist the private sector in developing aself-sustaining, commer- cial land remote sensing enterprise. The Land Remote-Sensing Commercialization. Act of 2984 was signed into law on July 17, 19$4. In October 1484, after examining a total of seven RFPs, the Department of Commerce accepted the proposal of EOSAT, a new company formed by RCA and Hughes Aircraft Corp. However, EOSAT and the Department of Commerce had difficulty reaching agreement on the terms of the subsidy. After consd- erable discussion, involving the Office of Management and Budget, the Department of Commerce, end Congress, the principals agreed on a government subsidy of $250 million for two follow-on Landsat satel- lites. The government agreed to launch Landsat 6 and 7 on the shuttle. In addition, the government also contracted with EOSAT (for a fee) to operate Landsat 4 and 5 and to market the resulting data. However, although Congress has generally supported the subsidy, the Reagan Administration has proved reluctant to complete the subsidy payments to EOSAT, believing that the private sector should shoulder a greater share of the burden of providing the data. Neither the 1987 nor the 1488 proposed budgets contained fund- ing for the subsidy.. EOSAT recently submitted a new proposal and a new budget to the Department of Commerce, which calls for a cost increase of nearly $50 million. In addition, space transportation costs will certainly be greater than earlier envisioned.. Some Members of Congress have expressed eorcern that the United States will lose its leadership in remote sensing from space if the civilian program is allowed to die far lack of funding. However, as of May 1, 1987, the issue of funding. for Landsat b and 7 had not been resolved. The lack of a U.S. civilian system and the attendant value-added industry could seriously inhibit efforts by the U,S. media to make serious use of data taken from space for newsgathering and analysis. ':For a mare detailed. account of the early steps taken to transfer the Landsat system, see L1,5.Corr.tgress, r~?A, Remote Sensing and the Private Sector: Issues !or Discussiarry-A Terhrucat Memorandum. OTA-TM-ISM-2?(washington, t1~: U.S. Government Printing Of{ire. March Y984), FP. ~~. Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  ll I I Il ~ I II I l l ,I ~ Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Photo credit: Copyright ?1987 EOSAT. Provided courtesy of EOSAT New York City and Harbor, 1986. This image utilizes Thematic Mapper band 4 to differentiate urban and rural features of the City and Harbor. The detail of the 30 meter sensor allows clear definition of roadways, docks and ships in the Harbor, and the infrared illustrates parks and grassy areas in brighter shades, as opposed to the dark areas of urban New York downtown. panelists felt that neither of these conditions would be repeated very often.18 Should the media decide that, even with their limitations, SPOT and EOSAT data were still val- uable, they might negotiate special agreements for receiving raw data on a rapid basis and under- take the expense of doing their own ground proc- essing and interpretation. One panelist estimated 18It is useful to note that most of EOSAT's Thematic Mapper tapes have never even been processed to image format. The rate of data collection (100 scenes per day) far exceeds the rate of scene process- ing (20 scenes per day). EOSAT's future business plans do include improvements that would allow a turn around time Erom acquisition to finished prod- uct of only one week. Although this is a substantial improvement, for most news stories, a delay of one week would probably be unac- ceptable. that a fully operational ground receiving and proc- essingfacility might cost on the order of $10 mil- lion to $15 million. Even if the media invested in their own ground processing facilities, they would still not have solved the problems caused by the limited global coverage and resolution of current satellites. There was considerable disagreement at the workshop regarding the press' ability to interpret satellite imagery correctly. One panelist stated that the media had done a poor job of covering Cher- nobyl and contributed to the general hysteria by announcing that two reactors were on fire instead of one. The panelist argued that any competent analyst looking at the images would have recog- nized that: Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  _ I- -J. _ --_--~.L~---~- --- - - --- - - Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Photo credit: Copyright ?1987 EOSAT. Provided courtesy of EOSAT Chernobyl, U.S.S.R., on Apr. 29, 1986. The first image collected by satellite of the nuclear reactor is illustrated using band 7 of the Thematic Mapper. The reactor facility (circled) and surrounding agricultural areas are clearly illustrated and defined, and the still-burning reactor can be identified by a bright pixel-whose digital evaluation helped the United States determine the correct status of the reactor during the incident. Evaluation of infrared and thermal imagery of the reactor cooling pond also confirmed U.S.S.R. reports of plant shutdown and startup. ... nuclear powerplants must have cooling ponds and effluents and no one looked at the imagery to say, "where is the effluent for the second reactor?" Another panelist countered that it was one thing to say that: ...any idiot knows that a nuclear reactor has an effluent pond, but what makes the problem hard is that you don't know which idiot to hire. If you're going to do lots of stories about nuclear reactors you hire people who know that nuclear reactors have effluent ponds. If, on the other hand, you are going to have a lot of stories about Forest degradation you need to have people who know a lot about forests. It was clear from the workshop discussion that if the media intend to use satellite imagery exten- sivelythey must solve the interpretation problem. This would mean either hiring photointerpreters -much as they now hire meteorologists-or rely- ing on outside contractors (the so-called "value- added" industry) to turn the raw satellite data into newsworthy information. At present, the value- added industry is small and, like the commercial remote sensing companies, is not organized to re- spond to the needs of the news media. But, as one panelist pointed out, a news organization's most important asset is its credibility. Most panelists thought that the industry would be able to solve the interpretation problem once it had more ex- perience with the technology. _______ Approved For Release 2011/08/15 :CIA-RDP05T02051R000200260001-0  l l I l V I I I l I I I , I I I f1ll 1 Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Assuming the media could arrange to receive most data in a timely fashion and arrange for their interpretation, it might still be difficult to get as- sured access to politically sensitive data. Govern- ment support and control of the two existing com- mercial systems and the operational independence of the foreign ground stations create at least the possibility that governments could, on occasion, prevent politically sensitive data from reaching the media. Both EOSAT and SPOT rely on foreign ground stations to collect data when the satellite cannot communicate with earth stations in the United States or France: The owners of the Earth stations pay an annual fee which allows them to collect the data from their region and sell it. The Earth station owners pay royalties on sales of the re- gional data. In the case of the Landsat Earth sta- tions, the Memorandum of Understanding (MOU) is between the U.S. Government (with NOAA [the National Oceanic and Atmospheric Administra- tion] as the U.S. representative) and the foreign government. Under the U.S. MOUs, foreign ground stations are supposed to provide nondiscrimina- tory access to all purchasers. In practice, how- ever, the ground stations can refuse to sell data, delay the shipment of data, or deny that data even exist.19 The only recourse after a ground station's refusal to honor the "nondiscriminatory access" clause of their contract is for the U.S. Govern- ment to terminate service to that ground station. This would mean a loss of the annual fee ($600,000 in the case of the U.S. MOUs) and, given the un- reliability of on-board tape recorders and the uri- certain status of NASA's Tracking and Data Re- lay Satellite System (TDRSS),20 the potential loss of a great deal of data. All of these problems notwithstanding, perhaps the biggest difficulty the media have with current systems is their limited resolution: Neither EOSAT "When a buyer asks EOSAT for data that were collected by a foreign ground station, EOSAT must request that the foreign ground station sell EOSAT those data. One panelist pointed out that cer- taincountries were notorious for refusing to release data. For exam- ple, the panelist said that it was very difficult to purchase data from India, particularly if they contained scenes of the India/Pakistan border. 20It is important to note that, as a result of the cost, complexity, and limited access to TDRSS, EOSAT does not have plans to in- clude TDRSS communication packages on its next two satellites. nor SPOT has plans to provide the very high reso- lution sought by the news media. Several panelists pointed out that focusing on high resolution was, in some respects, misleading-the question is not what is the best technology the media can buy, but rather, what does the media need? If the me- dia'sprimary use of satellites is to show a typhoon in Bangladesh, a volcano in Hawaii, or an oilspill off the coast of England, then there is no reason to incur the costs associated with very high reso- lution. If, on the other hand, the media wish to count tanks in East Germany or show the effects of street rioting in South Africa, then the news media would probably want the highest resolu- tion they could afford.zl Other panelists suggested that the media had yet to make innovative use of the available low- resolutionimagery. "Spatial resolution is only part of the game," cautioned one panelist, "We are only beginning to understand spectral [see box C] differ- ences." Because different objects reflect light differ- ently, certain objects are identifiable even though they are smaller than the spatial resolution of the sensor. For example, a road or a river might be less than 10 meters wide and yet still appear on an image of 30 meter resolution if the road or river reflected light in a substantially different manner than the surrounding area. One panelist recalled: When we looked at the high spatial resolution data from Chernobyl it was hard to tell how many reactors were damaged, but on the spec- tral data the fact that one reactor was burning popped out immediately. Another panelist cautioned that, although spec- tral differences were important, when EOSAT brought back images of China, the Great Wall was not visible in certain spectral bands because the Wall was made from, and therefore reflected light in the same wavelength as, the surrounding rock. Panelists agreed that each system has its own spe- cific strengths and limitations, and that to date, the media had not used the available images crea- tively. 21It is interesting to note that of all the remote sensing images used in Aviation Week and Space Technology-including many mages of the Soviet Union and of Soviet technology-the images that gen- erated the most sustained interest were those of the Mount St. He- lensexplosion. Several panelists predicted that the media would find a large demand for satellite images of major natural events. ~~__,~ Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 _______  Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Implement Mediasat Concept If the media should decide that satellite imagery was very valuable, bu(: that the operating proce- dures of the current commercial systems were too rigid or that access tohigh-quality data could not be assured, then the media might be driven to de- velop their own system. The exact nature of this system would be the product of two important considerations. First, the media would have to de- cide on the appropriate level of technology, which would include, but not be limited to, a choice of the resolution of the sensors to be used (e.g., 5 meter, 3 meter, etc.) Second, the media would have to decide how much they could afford. These two considerations are very closely related. If a mediasat is to become a reality, the news media must be able to assess the value of both current satellite images and successive technical improvements. As a result of the media's inex- perienceusing satellite imagery, the uncertainties regarding the present market for data, and the lack of credible cost estimates for high-resolution im- agery, deciding how good is "good enough" is a difficult task. During the workshop, several par- ticipants suggested that 5 meter resolution might meet the needs of the news media. Yet, when one panelist illustrated the effect of increased resolu- tion by showing 10 meter and 5 meter images of Washington, D.C., several panelists were notice- ably unimpressed. "You say that 5 meter resolu- tion will produce good pictures," commented one participant, "I still say it's a source story [see box E]. You show that picture and you will have peo- ple saying: 'What is this? You're telling me this is Washington? It looked to me like New York.' " Another panelist, familiar with satellite imagery countered that, "You ought to take a look at this under a magnifying glass. There is a great deal more information in this 5 m picture than in the 10 m picture." This interaction highlighted, one of the basic dilemmas facing the news media- how to assess the value of increased information when that information can be transmitted to the consumer only imperfectly.22 zzFollowing the workshop, OTA received a letter from Earl S. Merrit, Vice President of EarthSat, a corporation specializing in the "value-added" business of imagery processing. The letter, which called into question the value of even very high resolution imagery, stated: [Tjhe satellite-acquired information will always be "source" material even if the resolution was 1 meter due to [the need for expert interpre- If cost were not a consideration, the media might want the highest resolution pictures they could get, but costs rise dramatically as resolution in- creases. This results, in part, from the fact that the data rate23 rises as the inverse square of the resolution. This means that, assuming the satel- lite is covering the same area, as resolution im- proves from 10 meters to 5 meters, the amount of data that must be collected, transmitted, and processed increases by a factor of 4. Similarly, improving the resolution to 2.5 meters would in- crease the origina110 meter data rate by a factor of 16. This led some panelists to conclude that data rate could influence the ground segment costs for the mediasat system more than any other single element.24 Panelists cautioned that although increased data rate was a "problem," it was possible to identify some potential solutions. Data rate, it was argued, could be greatly diminished by using the satellites to take pictures of specific, pre-identified events (e.g., an oil tanker beached on the California coast, a hijacked airplane sitting on the tarmac in Tripoli), rather than taking pictures of the entire Earth and then sifting through the raw data in the hopes of finding "news." In addition, data compression techniques could be used to greatly diminish the data flow problem.25 Cation]. This fact would seem to provide a "damper" on the network use of such source material since the number of "experts" in interpre- tation is limited. Thus, I see the networks eventually using the "source" to highlight a story but not to provide the bottom line ... human- intelligence gathering "journalism" will continue to dominate news gathering. 2JData rate refers to the flow of information about the picture "seen" by the satellite's sensor. At higher resolutions the pictures are more detailed and therefore contain more information. In order to transmit more information about the same scene in the same time period, the data rate must increase. 2?EOSAT's 30 meter TM sensor has a data rate of 85 million bits per second (MBPS). The data rate fora 5 meter mediasat with the same swath width would be 3,060 MBPS. By narrowing the swath width (therby reducing the coverage) and using data compression techniques, the data rate could be reduced to the 100 to 150 Mbps range. Even this much reduced data rate would require more so- phisticated data systems in both the sensor and the satellite than we now possess. zsData compression is a process that reduces greatly the amount of data which must be transmitted from the spacecraft to the ground station. Although there are many data compression techniques, most operate by reducing or eliminating the redundanty that is inherent in raw data. Where the quality of the resulting image is to be judged by subjective criterion such as visual appearance-as may be the case with media images-the transmitted data need only be suffi- cient to construct a facsimile of the orginal data. Under these circumstances-and depending on the amount of redundancy in the data-compression ratios of more than a factor of 2 could be achieved. Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Photo credit: Copyright ?1987 CNES. Provided courtesy of SPOT Image Corp., Reston, VA Baltimore city and Baltimore harbor. Ten meter panchromatic image taken by the SPOT satellite. Increased data flow was not the only problem identified by the panelists. One technical expert noted that while a 5 meter sensor could be flown on a "host" satellite or a relatively inexpensive sat- ellitebus, at very high resolutions, spacecraft sta- bilitybecomes aproblem. Therefore, flying a sen- sor of 3 meter resolution or better would require amore sophisticated and much more expensive satellite. The combined effect of increased data rate, more complex and expensive sensor systems, and more rigorous demands on the satellite bus, could mean that even slight increases in resolu- tion could have a dramatic effect on costs. One panelist estimated that an entire mediasat system (i.e., sensors, satellite, communication links, ground processing and distribution) with a 5 me- ter resolution might be obtained for as little as $215 million for aone-satellite system. A com- parable 1 meter system, on the other hand, might require amulti-billion dollar investment. (See app. A, table A-3, for alternative cost estimates.) Throughout this discussion, panelists made clear that cost, not the availability of advanced tech- nology, was the limiting factor in achieving high- resolution images. As one panelist put it, " 3 meters is do-able, just bring your checkbook." One panelist argued that, in light of the finan- cial resources of the television networks, the cost issue was being exaggerated. He pointed out that ABC "paid $309 million just to buy the rights to the '88 Olympics and will spend another $300 mil- lion to produce it." Others felt that the value of such comparisons is doubtful, because such large expenditures are made only in light of a carefully Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  -- ----~_1~ .f--J - _. ~ L -----~-- --- -- ---- --- Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Photo credit: Copyright ?1987 CNES. Provided courtesy of SPOT Image Corp., Reston, VA Baltimore harbor area. Ten meter panchromatic image taken by the SPOT satellite. calculated expectation that they will increase rev- enues at least as much. The hard question, then, is "what value would satellite images add to current news stories?" or, more to the point, "what additional news stories and revenue could be generated by the use of sat- ellite imagery?"Obviously, satellite images would not be useful in all of any given day's news sto- ries. Even assuming that ABC, CBS, NBC, and CNN use one satellite image per evening every day of the year, it is difficult to imagine how rev- enues could be generated to offset the cost of a $215 million to $470 million satellite system. If all four major networks used 1 satellite image every night, this would mean that about 1,500 images would be used every year. If one assumes that a mediasat would cost approximately $215 million to $470 million to build and launch, and another $50 million to $75 million to operate over a period of 5 years ($10 million to $15 million per year), then the average cost over the 5-year period would be $53 million to $109 million per year. Putting these admittedly speculative figures together, one concludes that each satellite image would have to be worth about $35,000 to $73,000 to the net- works (see app. A for cost assumptions). Given that the average network news story is produced for less than $5,000, it is hard to imagine how the networks could justify this additional expendi- ture.zb 26Several panelists felt that OTA cost and demand projections were too pessimistic. One panelist stated: I particularly want to challenge the assertion that each network would not use images every day. It reminds me only too well of the similar statements made ... in the wake of the first Telstar feeds to the United States from Europe and the confident predictions that there was no possibility that such programming would ever become com- monplacebecause the intercontinental link would always be too costly. Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  11 I I Il V I II 1 1 1 ~ I I I Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 There are ways that the news media might try to reduce the cost of a mediasat system: they could form aconsortium-either domestic or international -to share the cost, they could resell data to other users to subsidize their own use,27 or, they might wait until technical advances reduce the cost of sensors, satellites, and launch vehicles.28 At pres- ent, it is unknown whether any of these measures, or combinations of measures, would reduce the cost of a mediasat to the point where it would be economically viable today. Two points, should however, be kept in mind: first, it is impossible to estimate accurately the future demand for re- motely sensed data; and second, simple calcula- tions that compare the cost of a mediasat and po- tential mediasat revenues could be misleading. It is difficult to describe the value of a press "exclu- sive," and, as banks have recently demonstrated with their electronic teller machines, there is value in providing new ser.vices.29 Some panelists expressed the view that inter- estedgovernments should combine their resources in an INTELSAT-like organization to ensure con- tinued, cost-effective access to remote sensing data. Inherent in this concept is the belief that a medi- asat would not be economically viable even if funded by a consortium of news agencies. In one panelist's opinion: The money received from Chernobyl would fit in a thin wallet. When will there be another such accident located in a place where we can- notfly in with a good hand-held cameral An in- ternationalgovernmental consortium is the best way to ensure the continued availability of re- mote sensing data. It could begin to form when EOSAT and SPOT get tired of throwing money at the problem, when Congress takes Gramm- Rudman-Hollings seriously, and when someone "It is significant to note that total remote sensing data sales be- tween 1979 and 1984 only produced a little over $30 million. See: "Landsat Data Users Notes," No. 35, March 1986, p.7. 2BMany of the technologies currently being investigated by the Strategic Defense Initiative Organization (i.e., inexpensive launch vehicles, satellites, and sensors) could make mediasat a reality. 390ne panelist, noting that the fortunes of the major networks had been in decline recently, argued that a mediasat might be justi- fied partly on the grounds that while a network might be able to operate a mediasat, its affiliates could not do so on their own. There- fore, anetwork might want to operate a mediasat because it could hold the network together, thereby preserving other revenues. sees other countries as a set of partners eager to help share costs, and more importantly, help pro- mote the use of [remote sensing] systems. Finally, it should be noted that some experts see "mediasat" as one aspect of a more profound transition of the news networks from the status of news providers to a much broader role in the information industry. As one panelist noted: It is my belief that the largest market for medisat data will not be the news divisions but rather the secondary markets. Media companies will sell the interpreted data to buyers around the world ...and will change their structure to become huge value-added entities ...The me- dia [will never] be able to spend the amounts of money for a mediasat without aggressively open- ing new markets around the world. Should the networks undergo the radical trans- formation foreseen by this panelist, the assump- tions and conclusions of this technical memoran- dum would have to be similarly modified. The likelihood and prospects of such a transformation are beyond the scope of this technical memoran- dum. Box G and tables 2 and 3 provide informa- tion on many of the possible uses for remotely sensed data beyond newsgathering. Table 2.-Remote Sensing Data Needs of Foreign and Domestic Users ? Agriculture (Federal, State, and private): specific sampl- ing areas chosen according to the crop; time-dependent data related to crop calendars and the weather patterns ? Forestry (Federal, State, and private): specific sampling areas; twice per year at preselected dates ? Geology and nonrenewable resources (Federal, State, and private): wide variety of areas; seasonal data in ad- dition to one-time sampling ? Civil engineering and land use (State and private): popu- lated areas; repeat data required over scale of months or years to determine trends of land use ? Cartography(Federal, State, and private): all areas; repeat data as needed to update maps ? Coastal zone management (Federal and State): monitor- ing of all coastlands at selected dates depending on lo- cal seasons ? Pollution monitoring (Federal and State): broad, select- ed areas; highly time-dependent needs both for routine monitoring and in response to emergencies ? Newsgathering (private): selected areas; highly time?de- pendent needs in response to fast breaking news stories SOURCE: Office of Technology Assessment. Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Box G.~--Remote Sensing and the Public Interest U,S. land and meteorological remote sensing systems have Pram the beginning been intended to serve the public interest, whether primarily for research, as in the ease of the Landsat system, or for operational weather forecasting and severe weather warning., as in the case of the meteorological satellite systems.. The Landsat system has demonstrated to a small but dedicated group of customers, both inside and outside the government, that satellite data can be highly effective in meeting their resource information needs.. Land remote sensing systems serve a wide variety of data users {table 2), most of whom require satellite data of 10 to 100 meters resolution on time scales of weeks to months. However, the agricultural community and those who monitor the courses of natural and manmade disasters have need for data on a mare timely basis. It is clear from examining table 3 that the public interests and those of the media are often synon- ymous. Data from a mediasat could make an important contribution in warning of and assessing natural and manmade disasters, as well as in managing disaster recovery.. The value-added industry has developed a number of techniques for converting data to information that would serve the public good. Some of these would be of interest to the media: ? use of time lapse images to compare scenes over time; ? overlay of black and white imagery with spectral imagery to bring out features not visible in either; ? use of ground-based images to illustrate features close-up; and ? ? using stereo pairs to generate three-dimensional images from different perspectives, As one expert on photointerpretation and remotely sensed imagery has pointed out: ..remote sensing. technology, properly applied, could. save countless lives and billions of dollars in property damage each year. Few outside the military and intelligence [communities] are aware of this resource. Fewer still know how to interpret that technology and even fewer know how and when to apply it. Yet it is the same technology? with which the United States monitors SALT and the Middle East Truce Agreement, observes and predicts crop yields in the Soviet Union, Australia, Canada, Argentina, and India, and assesses damage caused by such catastrophes as the Italian, Guatemalan, and Alaskan earthquakes. ... If existing multisensor imagery had been analyzed, the plight of 150,000,tM30 in Ethiopia. and. other African countries could not only have been predicted, but actions taken before disaster struck. Table 3.-Summary of Applications of Landsat Data in the Various Earth Resources Disciplines Agriculture, Oceanography forestry, and Land use and and marine range resources mapping Geology Water resources resources Environment Discrimination of Classification of land Recognition of rock Determination of Detection of living Monitoring surtace vegetative types: uses types water boundaries marine organisms mining and Crop types Cartographic mapping Mapping of major ge? and surtace water Determination of fur- reclamation Timber types and map updating ologic units area and volume bidity patterns and Mapping and Range vegetation Categorization of land Revising geologic Mapping of floods circulation monitoring of Measurement of crop capability maps and flow plains Mapping shoreline water pollution acreage by species Separation of urban Delineation of uncon- Determination of aerial changes Detection of air Determination of and rural solidated rack and extent of show and Mapping of shoals pollution and range readiness categories soils snow boundaries and shallow areas its effects and biomass Regional planning Mapping igneous in- Measurement of gla- Mapping of ice for Determination of Determination of Mapping of transpor- trusions cial features shipping effects of vegetation vigor lotion networks Mapping recent vol- Measurement of sedi- Study of eddies and natural dis- Determination of Mapping of land- conic surtace ment and turbidity waves asters vegetation stress water boundaries deposits patterns Monitoring en- Determination of soil Mapping of wetlands Mapping land forms Determination of vironmental ef- condltions Search for surtace water depth facts of man's Determination of soil guides to minerali- Delineation of irrigat- activities (lake associations zation ed fields autrophication, Assessment of grass Determination of Inventory of lakes defoliation, and forest fire regional structures etc.) damage Mapping linears (fractures) Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Photo credit: Copyright ?1987 EOSAT. Provided courtesy of EOSAT Portion of Landsat 5 Thematic Mapper image showing Augustine Volcano, Alaska during eruption on Mar. 27, 1986. Band 4, in the near infrared, clearly defines snow/cloud area from surrounding vegetation and terrain, with 30 meter ground resolution. Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  - --y-- --~--- -~----~~-- --_ _-~- -1-- -- ----- - - -- - -- Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Photo credit: Copyright ?1987 EOSAT. Provided courtesy o/ EOSAT The 120 meter thermal band on the Thematic Mapper displays the hot flow at the north end of the Augustine Volcano through the smoke and cloud cover. By combining the spectral bands of the Thematic Mapper, the clarity of 30 meter resolution is complemented by thermal information. Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  11 ~ l Il U ~ III 11 I ~ . I I I Il l- Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 NATIONAL SECURITY AND FOREIGN POLICY So far, this paper has examined the desirability and feasibility of a mediasat from the perspective of the press. It is also important to examine the U.S. Government's interests, attitudes, and con- cerns regarding this concept. The remainder of this technical memorandum will focus primarily on the tensions that are certain to develop between this Nation's commitment to freedom of the press and its commitments to current national security and foreign policies. As one author framed the problem: In a robustly pluralist society such as ours, free speech is easy to accept and to enjoy, and in a hostile, potentially lethal international environ- ment such as the one in which we live, national security seems a fundamentally worthwhile pur- suit. The difficulty lies in making tradeoffs.30 In the preceding discussion, this technical memo- randum concluded that, in the near-term, the high cost of gathering and processing satellite imagery would inhibit the news media's attempts to estab- lish amediasat. Nonetheless, in the long run, the media are likely to continue using satellite imagery and gain access to increasingly sophisticated re- motesensing technology. Accepting this fact, the United States will eventually have to balance the guarantees of free speech and the need for national security with respect to media use of remotely sensed data from spacecraft. National Security Concerns Experts generally agree that the media's exten- sive use of high-resolution satellite imagery for newsgathering could complicate certain U.S. na- tional security activities and certain U.S. foreign policies. They also agree that this Nation's strong and unwavering commitment to the principle of freedom of the press has served it well. The task, therefore, is to balance these two fundamental con- cerns. As the following discussion illustrates, the arguments on both sides of this issue are strong and clear choices are few. Participants identified and discussed five sets of national security and foreign policy concerns during the workshop. 30Paul B. Stephens, The First Amendment and National Security, Center for Law and National Security, University of Virginia, vol. 1:2, May 1984, p. 1. 1. Dissemination of Information Concerning U.S. Military Operations Some panelists expressed the concern that, with- out adequate oversight of a mediasat, the media might disclose information concerning U.S. mili- tary operations under circumstances that could result in casualties and/or frustrate U.S. objec- tives. The disclosure by the media of information concerning U.S. troop movements, shipments of materiel, or the location or heading of ships and cargo planes could deprive U.S. troops of the ele- ment of surprise-a critical tactical advantage in fast-paced, modern warfare. The most common media response to such alle- gations is that, although a mediasat could pro- vide asubstantial new source of data, the media's extensive contacts and information sources within the United States and around the world already provide the press with real-time information con- cerning fast-breaking news stories. "The system leaks like crazy anyway," asserted one panelist, "I find it hard to get excited over the incremental damage that a mediasat could do."The media are also quick to assert that their past record is a good one. Where lives were at stake or serious national security issues in question, they argue that the news media have acted responsibly, often refusing to release information that would seriously prejudice national security.31 One media representative said that in 1986, his network's correspondent was flying in a chartered airplane and saw the U.S. fleet turn south towards Libya hours before the United States' retaliatory bombing. Although this information was radioed to the network affiliate in Rome and then passed back to the United States: We did not go on the air with it because we realized that specific lives were in jeopardy .. . "Although the workshop participants generally accepted the prop- osition that the news media acts responsibly, a minority of experts and media pundits have argued the opposite. For example, analysts at Accuracy in Media, Inc. (AIM), have argued generally that the media's "policy of publishing sensitive information ...may jeop- ardize the lives of innocent people." (See: "AIM Report," July-A, 1985, No. XIV-13, p.1) The media have been criticized for speculat- ingabout sensitive programs such as the launches of classified DOD payloads on the Space Shuttle. More recently, the media were criti- cizedbecause some felt that they were putting the lives of the Beirut hostages in danger by speculating on the nature of U.S. efforts to free them. Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  i ~ Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 It is our policy that when there is a specific issue of life or death we will not broadcast that infor- mation. Another panelist commented that although the network's restraint in the Libyan incident was com- mendable: I assume you don't have Fancy cryptographic communication equipment; therefore, you gave Libya the message when you radioed it from the airplane to the ground station. This comment identifies two important problems: 1. the media have only a limited ability to pro- tect sensitive information even if they desire to do so; and 2. the national security community may have to rely on the press' restraint to withhold in- formation that once was under the control of the national security community. Some media experts argue that a "newsgather- ing" satellite would work to the advantage of the United States by providing additional reconnais- sance capability. It would be more difficult for nations to cheat on treaties or hide hostile activi- ties if faced with frequent overflights by both media- and government-owned satellites. friendly foreign governments might retaliate by expelling diplomats or closing valuable U.S. mil- itarybases should the press reveal information that embarrassed or threatened the national security of those nations. Governments already hostile to the United States could resort to terrorism or di- rect armed aggression.33 Some panelists felt that this was neither a sig- nificantnor anovel issue, and that although coun- tries might initially complain, eventually they would accept a mediasat as they now accept EOSAT and SPOT.39 The Soviets, one panelist noted, had complained bitterly through diplomatic channels when the magazine Aviation Week and Space Technology first ran pictures of its launch facilities at Tyuratam, but over the years their complaints gradually ceased.35 Other panelists took an uncompromising view of threats of for- eign retaliation. They maintained that this issue was one that should now and always be non- negotiable by the U.S. Government as it lies at the heart of the principle of freedom of the press. One panelist commented hotly: When the Soviets or other countries call and say, "why aren't you stopping that story on the evening news," you say, "we can't, and that's the difference between our country and yours." 2. Retaliation by Foreign Governments for Media Disclosures Recent world events have demonstrated the strange symbiotic relationship that exists between the U.S. Government and the U.S. news media. The taking of media hostages in Beirut and the arrest and detention of Nicholas Daniloff in Moscow are just two examples of the willingness of certain foreign governments to use the U. S. me- dia as pawns in their struggle with the U.S. Gov- ernment. Mediasat raises the opposite concern- that the U.S. Government might be held respon- sible for the actions of the news media.32 Some workshop participants expressed the concern that 32The U.S. Government accepted legal responsibility for the ac- tions of its citizens in space in the Outer Space Treaty (18 U.S.T. 2410; T.I.A.S. 6347). Article VI of the Outer Space Treaty states: States ...shall bear international responsibility for national activ- ities in outer space ...whether such activities are carried on by gov- ernmental agencies or by non-governmental entities, and for assur- ing that national activities aze carried out in conformity with ... (this) Treaty. The activities of non-governmental entities in outer space .. . shall require authorization and continuing supervision by the appro- priate State party to the Treaty. 3. Loss of Control During a Crisis Advances in transportation and communication technologies have made the world smaller and re- duced the time available to leaders to make deci- sions. Although far from perfect, the communi- "One panelist pointed out that some nations already have, and others may eventually have, the capability to destroy or incapaci- tate satellites of the types likely to have commercial value. "For many years after the U.S. Landsat program began, many developing countries claimed that a state should not be "sensed" without its prior consent. It is significant to note that the Arinciples Relating to Remote Sensing of the Earth From Space (A/RES/41/65, Jan. 22, 1987), recently published by the United Nations, omits any reference to prior consent. This is at least some indication that as nations become more familiar with this technology and as the tech- nology becomes more widely available, countries will cease to re- gard it with suspicion. "The initial Soviet complaints resulted in part because this was the first publication of such images and, in part, because of the tim- ing of the release. The pictures appeared immediately before the 1975 Apollo-Soyuz U.S./Soviet link-up in space and may have been regarded by the Soviets as a violation of the "spirit of cooperation" which both governments were trying to project to the world. One panelist noted, however, that the Soviet's ability to disable satel- lites was far less in 1975 than it is today. Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  ll I I II U I II 1 1 l i ,I I I III I Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Photo credit: Copyright ?1987 C.NES. Provided courtesy o1 SPOT Image Corp., Reston, VA Soviet nuclear testing facility, Semipalatinsk, U.S.S.R. Visible are cable scars and access roads connecting with drill holes. Ten meter panchromatic image taken by the French SPOT satellite. cation and information assets available to world leaders have allowed them to stay just ahead of breaking events. This small grace period has given leaders time to plan and confer with.advisors be- fore being forced to make critical decisions that could lead to confrontation or conflict. As medi- asats become more capable, some fear that this "grace period" could be reduced to zero and that world leaders would be forced to respond to press reports on which they had little or no informa- tion. One analyst noted that President Kennedy had 6 days to formulate a response to the discov- ery that Soviet missile sites were being built in Cuba. How might the President have handled this ~, Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 -_  Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 crisis had he been forced by media disclosures to respond to Congress, the press, and the Amer- ican people within the first few hours? During the workshop, participants put forward two responses to this issue. The first was similar to the response to the issue of dissemination of military information; that is, that a mediasat would provide only an incremental increase over current capabilities. The sophisticated communi- cation equipment now employed by the media al- readyforces world leaders to respond in real-time to breaking news. Second, no matter how ad- vanced the media's assets were, they could never rival the sophistication and timeliness of the en- tire intelligence apparatus currently available to the superpowers, of which satellites are only a small part. 4. Providing Valuable Intelligence to Third Parties The United States and the Soviet Union still hold a virtual monopoly on sophisticated, global recon- naissance data. These data are, for the most part, jealously guarded, although in certain circum- stances discrete portions of these data have been released to aid allies or confound adversaries. Some panelists expressed concern that mediasat activities, by making satellite images more gener- ally available, would erode this important U.S. advantage. Workshop participants were unable to reach consensus on either the dangers posed by this potential erosion or the nature of the sup- posed advantages now enjoyed. The issue seems to turn on the judgment that: 1) there exists a sizable set of issues about which the United States and the Soviet Union would have a common interest in withholding or controlling the flow of information, and 2) the fact that So- viet reconnaissance systems could detect some- thing does not necessarily mean that they have detected it. Some panelists simply discounted the importance of the first concern, stating that, "the situations where the United States wants to con- ceal something from a third country that the Soviets wouldn't cooperate with would be few and far between." In response to the second concern, certain panelists noted that the likelihood that commercial news gathering satellites would find out things that the Soviets didn't already know was, "conceivable but extremely unlikely." 5. Dangers of Media Misinterpretation of Data The previous section has already discussed the problems that the media have had in interpreting the satellite imagery they have already obtained. Some panelists expressed fears that inaccurate reporting-caused primarily by the strong pres- sure to "break the news"-could precipitate a cri- sis. For example, one expert recently wrote that: [S]everal networks showed SPOT photographs of the Soviet nuclear proving grounds at Semi- palatinsk and claimed that the Soviets were pre- paring to resume nuclear testing. They showed photos of what was described as a "drill site." Looking at the photo, any competent imagery analyst would have pointed out that the arrange- ment and the cable scars terminating at the site would have proved that it was not a drill site but rather an instrumentation site, common to all nu- clear proving grounds.'? It is conceivable that similar media misinterpre- tations on more serious issues such as troop move- ments or arms control violations could seriously disrupt international affairs. Some media experts discount this concern, arguing: first, that as the media continue to use satellite data they will grow more sophisticated and become less prone to er- ror; and second, the common practice of verifying major stories with multiple sources of informa- tion should reduce the likelihood of misinterpre- tation. One panelist felt that the media should be forced to use a common pool of qualified analysts to en- sure that image misinterpretation was kept to a bare minimum. Most panelists strongly disagreed with this suggestion, claiming that: It's part of the process of free speech to permit and encourage diverse interpretation. Attempts to limit interpretation will have a direct impact on the American people's ability to get informa- tion and make their own judgments. '"D.A. Brugioni, Satellite Images on TV: The Camera Can Lie, Washington Post, Dec. 14, 1986, p. Hl, col. 1. Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  1 1 Il V ~~ III I I I ~ I ,I ~I I IIIIL Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 The Effect of Foreign Remote Sensing Systems on U.S. Policies Within a decade, many nations will have their own remote sensing systems. The U.S. Govern- ment cannot effectively limit or control media ac- cess to satellite imagery if foreign governments do not exercise similar controls. At present, the only non-U.S. commercial remote sensing system is France's SPOT. However, research-oriented re- mote sensing systems are currently under devel- opment by Canada, China, the European Space Agency, India, and Japan. Japan launched its first Marine Observation Satellite (MOS I) in Febru- ary 1987. In addition, instruments flown on the shuttle and on the proposed international space station and its related polar platforms will supply another source of high-quality data with poten- tial media application. All these systems, even those not considered "commercial," add to the pool of data available for exploitation by the media. The almost assured proliferation of sophisti- cated remote sensing systems has caused many analysts to question the practicality-except for minimal launch vehicle and payload licensing37- of attempting to regulate the media's use of satel- lites to gather news. The most obvious means for controlling a mediasat organization would be to: 1) allow the launch of only certain types of satel- lites (e.g., limit the type and resolution of sen- sors); 2) control what the satellite takes pictures of in orbit; and/or 3) limit the flow of data from the satellite to the end user. Disregarding for the moment the constitutionality ofany ofthese pro- posals, U.S. laws attempting to accomplish one or more of these tasks would not be applicable "Both the Land Remote-Sensing Commercialization Act of 1984 [15 U.S.C. 4201-4292] and The Commerical Space Launch Act [49 U.S.C. 2601-2623] require licensing for private systems operated within the United States. to foreign systems. As a result, U.S. news agen- cies could purchase data from, or invest in, for- eign remote sensing systems. In the opinion of some panelists, the only effect of U.S. limitations would be to stifle a domestic mediasat industry. Others argue that foreign remote sensing sys- tems-either as a result of high costs, less sophis- ticated technology, foreign government policies, or a simple lack of need for high-resolution images -may have only limited capabilities.38 Therefore, with minimum international coordination, U.S. policies could substantially delay the time when the media would have access to very high-resolu- tionsatellite images. The U. S. Government might attempt to negotiate agreements39 with other coun- tries regarding sensor resolution or data dissemi- nation. Such agreements would certainly be op- posed by the news media and, given the U.S. commitment to both the freedom of the press and the "open skies" policy,40 it is not certain how much support such agreements would find in either Con- gress or the executive branch. 38The option of a satellite owned by a U.S. entity but launched under a foreign "flag of convenience," to evade U.S. Government regulation appears to be foreclosed by the recent 7 national agree- ment not to export rockets that could serve as long-range missiles- and therefore also rockets capable of launching satellites into polar orbits. See John H. Cushman, Jr., "7 Nations Agree to Limit Ex- port of Big Rockets," The New York Times, Apr. 17, 1987, p. 1. 39Such an "agreement" could be a fonmal treaty or a more flexible set of gentlemen's agreements concerning topics such as sensor reso- lution or data distribution. COCOM is a current example of such an informal agreement. COCOM coordinates the export control re- gimes of the member nations but COCOM agreements have no le- gal standing in any of its member nations. dOTo reduce tensions between the United States and the Soviet Union, President Eisenhower in 1956 suggested to the Soviets that each country should allow the other to overfly its territory on a regular basis. Although the Soviets rejected this suggestion as a trans- parent espionage device, the United States' continued commitment to the principle of "open skies" allowed it to support its later asser- tion that spaceborne reconnaissance was a peaceful activity. See: Walter A. McDougall, The Heavens and the Earth (New York: Basic Books, Inc., 1985), p. 127. i~ ---_- T Approved For Release 2011/08/15 :CIA-RDP05T02051R000200260001-0  -- J__J _ ------_?J._L I _ --- Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 NATIONAL SECURITY AND THE FIRST AMENDMENT The first amendment provides that "Congress shall make no law ...abridging the freedom .. . of the press." Since the adoption of the Constitu- tion, the Supreme Court has repeatedly affirmed the depth and breadth of its commitment to these few powerful words, even when confronted with serious national security concerns. Although it would be possible to write a treatise on the legal issues that a mediasat could generate, this paper is concerned with merely outlining the issues re- lated to two narrowly drawn questions: 1. Are there restrictions that the government could impose in the interests of national secu- rity that would pass constitutional muster? 2. Is the licensing scheme established in the 1984 Remote Sensing Act a reasonable exercise of U.S. domestic and international responsibil- ities and is it consistent with the first amendment? Mediasat Restrictions and the First Amendment41 Before one can assess the constitutionality of mediasat restrictions, it is important to consider the legal status of newsgathering. In Branzburg v. Hayes, the Supreme Court held that news- gathering qualifies for some first amendment pro- tection, because "without some protection for seeking out the news, freedom of the press could be eviscerated."'Z But, the Court in Branzburg did not say-and has never said-that newsgather- ing is due the same degree of protection afforded traditional speaking and publishing activities. In- deed, the Court has upheld restrictions on news- gathering where reporters sought access to gov- ernment facilities or government information not generally available to the public.93 The degree of protection ultimately granted to news gathering activities will determine which restrictions the U.S. "This paper discusses only the first amendment issues raised by a mediasat. Media owned satellites would, of course, be subject to all the domestic laws and regulations (e.g., Federal Communication Commission regulations, Space Launch Act of 1984) that would ap- ply to other satellites. In addition, treaties that have been signed and ratified, such as the 1967 Outer Space Treaty and the 1972 Lia- bility Convention, are legally binding on private sector activities. '=408 U.S. 665, 681 (1972). 63See: Pell v. Procunier, 417 U. S. 817 (1974), and Saxbe v. Wash- ington Post Co., 417 U.S. 843 (1974). Government could properly place on a mediasat. Unfortunately, until the Supreme Court has oc- casion to rule on this specific issue, it will not be settled decisively. As noted above, should the U.S. Government desire to inhibit amedia-owned satellite from gathering potentially sensitive information it could-either permanently or during acrisis- attempt to limit: 1) the resolution of the satellites sensors, 2) the images that the satellite is allowed to collect, or 3) the images the media may dis- seminate. Ifnews gathering is granted the highest degree of first amendment protection, all such re- strictions might well be regarded as impermissi- ble "prior restraints" on free speech. The doctrine of "prior restraint" holds that advance limitations on protected speech may not be "predicated on surmise or conjecture that untoward consequences may result."" Prior restraints are allowable only if necessary to prevent "direct, immediate, and irreparable damage to our Nation or its people."'s If newsgathering is given full first amendment pro- tection by the Supreme Court, U.S. Government restrictions would have to meet the strict tests re- quired of allowable "prior restraints." CM the other hand, should the Court decide that news gather- ing was deserving of some lesser degree of pro- tection, the government would have considera- bly more latitude to limit mediasat activities. But even if the government could not meet the strict "prior restraints" test, it could still enforce post-publication sanctions.96 Federal espionage laws prohibit gathering or transmitting defense information, photographing defense installations, publishing or selling photographs of defense in- stallations and the disclosure of classified infor- ??Justice Brennan concurring in, New York Times Co. v. United States (The "Pentagon Papers" case), 403 U.S. 713, 724 (1971). The ruling in New York Times was a brief per curium decision, but each Justice elaborated on his views in a separate concurring or dissent- ing opinion. See also: Near v. Minnesota, 283 U.S. 697 (1931). 65Justices Stewart and White, concurring, New York Times Co. v. United States, Id.; To date, the only case which upheld a prior restraint in this context is a 1979 decision by a U.S. District Court, United States v. The Progressive, Inc. (467F.Supp. 990 (W.D. Wis.)). In that case the court issued an injunction against a magazine that was planning to publish a detailed description of hydrogen bomb technology. '?Although they do not involve issues of "prior restraint," post- publicationsanctions must still be consistent with the first amendment. Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  1 1 I I 11 V I I I l l I i I I I Ih I~_ Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 motion."' Should the media violate any of these laws by disseminating satellite images, the gov- ernment could-subject to the limitations of the first amendment-prosecute those responsible.48 If the media do not own the satellite system, but rather rely on a commercial company such as EOSAT to provide it with data, it would be less clear whether the media could successfully ar- gue that licensing restrictions violate their first amendment rights. Should the U.S. Government ask EOSAT to stop distributing raw data for a few days during a crisis and EOSAT agreed, the news media might have a case against EOSAT for breach of contract, but its case against the U.S. Government for infringing its first amendment rights would be less clear. If the media were buying their data from a for- eign satellite system and the foreign government decided, for political or national security reasons, to halt or delay delivery of the data, the media would have no constitutional protections. They might, of course, be able to proceed with a breach of contract action. The 1984 Landsat Act Under current international 1aw49 and in con- sideration of valid concerns about the national security50 and the public welfare,sl there seems lit- ?'18 U.S.C. 792 to 799. 68Most of these statutes require that the person taking the proscribed action have "reason to believe" it would have a harmful impact. This would raise a number of difficult issues. For example, would it be a violation to include accidently a defense installation in a ser- ies of satellite photographs, or to include information that was not visible to the media but which was visible to a foreign power using sophisticated processing techniques? '9Outer Space Treaty, Article VI, Supra, Note 32; Some authors have suggested that a state's responsibilities under article VI are ex- tensive: (W)hile no one would doubt the need for government control over space activity at its present stage, ...Article VI would prohibit, as a matter of treaty obligation, strictly private, unregulated activity in space or on celestial bodies even at a time when such private activ- irybecomes most commonplace. Although the terms "authorization" and "continuing supervision" are open to different interpretations, it would appear that Article VI requires a certain minimum of licens- ing and enforced adherence togovernment-imposed regulations. Man- ual of Space Law, Jasentuliyana and Lee (eds.) (Oceans Publishing, 1979), vol. 1, p. 17. eoA rocket that can put a payload into polar orbit can also deliver a warhead to any point on the Earth. As with other technologies on the Munitions Control List, the government has a valid interest in closely monitoring foreign access to this technology. 51Launch vehicles and payloads present a potentially extreme safety hazard to the citizens of this and other countries. In addition to cur- tle doubt that the U.S. Government has the right, and indeed, the duty, to exercise its supervision over the space ventures of its citizens. In light of these serious concerns, some form of licensing and regulation is required. The question, then, is whether the specific licensing system requirement in the 1984 Landsat Act is a proper exercise of gov- ernment authority. Among its other provisions, the Landsat Act requires those seeking an operating license to "operate the system in such manner as to preserve rent international law, common sense would dictate that the U.S. Government should play some role in ensuring that launch activi- ties and payload do not cause injury. Box H.--Mediasat and Personal. Frivacy The media's rights under the first amendment are not the only rights that a mediasat would call into question. , As remote sensing satellites be- come more sophisticated, it is possible that the average person's expectation of privacy could be eroded. Satellites are currently capable of spot- ting certain. crimes, such as environmental pot- lotion. Eventually, satellites may be able to perform other law enforcement functions such as identifying and. locating. marijuana fields. In the fax future, satellites may be able to monitor the activities of individuals. Under current law, a person is protected against publicity given to facts of his or her private life. Although. this ?right of privacy" is sometimes hard to define in specific terms, it seems clear that its protections are reduced when a person ap- pears in public. * Mediasat could alter the cur- xent understanding. of what the law regards as "appearing in public." Recently, in California v. Craola the Supreme Court decided that aerial reconnaissance was an acceptable law enforce- ment technique and that activities taking place in the defendant's back yard were in "plain view" even though they were surrounded by a 1p ft. high fence.** Applying Ciraolo's logic broadly, one could argue that. citizens have no right of privacy for any activity that might be seen from an airplane or by a satellite. * * * *I. Hanson, Libel sad Related Torts, sec. 266 (1969). **166 S.Gt. 1809 (1986). * * *Ciraolo was a criminal law case involving a warrantless search. The case's reasoning may not be relevant to civil suits involving n- vasion of privacy. Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 __ ___  Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 and promote the national security of the United States."52 Some attorneys' have argued that the licensing provision of the Landsat Act should be declared invalid because these provisions are nei- ther "susceptible of objective measurement,"54 nor drafted with the "narrow specificity,"55 required of statutes affecting first amendment interests. Given both the government's valid national security interest in regulating the use of launch vehicles and payloads, and the necessarily chang- ing nature of national security concerns, it is dif- sz15 U.S.C. 4242(b)(1). 53See: Robert J. Aamoth, "From Landsat to Mediasat,"American Enterprise, the Law, and the Commercial Uses of Space (Washing- ton, DC: National Legal Center for the Public Interest, 1985), vol. II, p. 1. 51Keyishian v. Board of Regents, 385 U.S. 589, 604 (1967). SSHynes v. Mayor of Oradell, 425 U.S. 610, 620 (1976J. ficult to assess how courts might respond to this argument. The references to national security in the 1984 Remote Sensing Act are certainly very general. However, a court might choose instead to focus on the specific facts of each case or on past Government actions in granting or denying licenses. The court could also decide that the reg- ulations supporting the statute are sufficiently spe- cific tosupply both the necessary "objective meas- urement" and "narrow specificity." Should a court decide that the licensing provi- sions of the act were not invalid on their face, then the news media might still argue that the govern- ment's use of license denials or license-imposed system limitations was unconstitutional. As dis- cussedabove, the freedom the government would have to impose restrictions would be directly re- lated to the court's final determination of the con- stitutional status of news gathering activities. Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Approved For Release 2011/08/15 :CIA-RDP05T02051R000200260001-0 _____ .__  u~ Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Appendix A The Technology of Newsgathering From Space' Stillman C. Chase, Hughes Santa Barbara Research Center; and Matthew Willard, Earth Observation Satellite Co. Introduction Remote sensing of the Earth from space began in 1960 with the launch of the first TIROS weather sat- ellite. The U.S. environmental satellite program has since expanded to provide low-resolution, broad-scale data from both low-Earth polar orbits and from geo- synchronous orbit. These data have been widely used by the media for more than two decades to illustrate the form and motion of large-scale weather patterns. Higher resolution multispectral images of the Earth from space first became available to the civilian user in 1972, when NASA launched the first Landsat satel- lite into anear-polar orbit.z That spacecraft carried a sensor called a multispectral scanner (MSS), which produced experimental data in four spectral bands that could be used to aid cartography; agricultural inven- tories; mineral, oil, and gas exploration; and land-use planning. The media have found these images of little interest primarily because the data provide a spatial resolution of only 80 meters (262 feet). Although the images generated with MSS data reveal some cultural features, including large road ways such as the inter- state highways, and even large buildings, such as the Pentagon, or the shuttle assembly plant at Cape Ca- naveral, the identity of smaller features cannot be dis- cerned.3 In addition, because the first three Landsat spacecraft passed over the same longitude at the Equa- tor only once every 18 days, and because the interval between data collection and subsequent delivery to the user (the turnaround time) could be as great as 2 months, any information they might have provided was not timely enough for media use. In 1982 NASA launched Landsat 4, which, in addi- tion to the MSS, carried an improved sensor, the Thematic Mapper (TM). When Landsat 4 began to fail in 1984, an identical Landsat 5 was launched. Land- sats 4 and 5 are still providing data from both MSS and TM sensors, although the ability to transmit data from the TM on Landsat 4 is limited. The TM is capa- ble of providing images of 30 meters (98 feet) resolu- tion in seven spectral bands. The TM senses a swath 185 kilometers (115 miles) wide directly under the spacecraft. Its relatively high resolution provides im- ages that have already proved useful for news report- ing. Data are sold in the form of computer-compatible tapes or black and white or color photographs. Each spacecraft crosses any particular longitude at the Equator only once every 16 days,? which means that its chance of passing over a part of the world in which a newsworthy event is taking place is low. How- ever, because Landsats 4 and 5 are 8 days apart in their cycles, the two together can provide better coverage. For example, although the TM of Landsat 5 was able to provide an important image of the failed Chernobyl reactor, it passed above Chernobyl on Apri129, 3 days after the first explosion, and could not return until So- viet technicians had extinguished the fire. In other words, it was unable to monitor the detailed progress of the fire, although it did show that the fire had been extinguished. The thermal band on the TM demon- strated that only one reactor had burned. Eight days later, Landsat 4 was able to acquire an additional im- age of the reactor site. Over the years, 11 other countries (table A-1) have built data-receiving stations. Landsat 4 and 5 are ca- pable of transmitting data directly to these foreign sta- tions when the satellites are within range, or transmit- ting data to Earth via the Tracking and Data Relay Satellite System (TDRSS). Basic processing by the EO- SAT Corp. corrects the data for geometric and radio- metric distortions. The Landsat system, which was originally developed and operated by NASA, was transferred to the Na- tional Oceanic and Atmospheric Administration in 1983.5 In order to transfer land remote-sensing tech- nology to the private sector, the Federal Government turned over operation of the Landsat system and mar- keting of its data to the EOSAT Corp. in December 'This appendix is adapted from a paper originally prepared for the OTA workshop on Newsgathering From Space. 'It was then called Earth Resources Technology Satellite (ERTS). 'Objects just below the limit of resolution, generally can be discerned as objects on the images, but their identity generally cannot. 'Because the Landsat orbit is a polar orbit, it can "revisit" areas north of the Equator more often. The exact number of days between overhead passes varies according to latitude. ?NOAA assumed operational responsibility for the TM sensor in 1984. Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0  I it u ~ ~ Approved For Release 2011/08/15 :CIA-RDP05T02051 8000200260001-0 Table A-1.-Foreign Landsat Ground Stations Actively receiving data (MOU signed with NOAA): Australia Brazil Canada European Space Agency (Sweden, Italy) India Japan Thailand Peoples Republic of China Saudi Arabia South Africa Not presently receiving data: Argentina Pakistan (under construction) Indonesia (no signed agreement) Bangladesh (no signed agreement) SOURCE: National Oceanic and Atmospheric Administration. 1985.6 In return for a government subsidy of $250 mil- lion,' EOSAT was to build and operate Landsat 6 and 7. However, because EOSAT has received only part of the agreed-upon subsidy, it has been forced to stop construction of Landsat 6. The future of civilian land remote sensing in the United States is in serious doubt.e In February 1986, France successfully launched its own system, called the Systeme Probatoire d'Obser- vation de la Terre (SPOT). SPOT provides 20 meter data in three spectral bands, as well as 10 meter pan- chromatic (black and white) imagery of Earth's sur- face. Although the SPOT satellite recrosses the same longitude only once every 26 days, its sensor is capa- ble of viewing at an angle, oroff-nadir, making it pos- sible to gather images from a particular surface area 7 out of 26 days.9 remote-sensing satellite system consists of four major tasks, each of which is critical to producing useful images: 1. data acquisition-the spacecraft, sensors, and transmitters; 2. data collection and delivery-the receiving sta- tionand other communication components; and 3. initial image processing; and 4. interpretative analysis. In addition, a launch vehicle is required to place the spacecraft in orbit.10 Media proponents of using remotely sensed data have suggested the following key requirements: ? high spatial resolution (5 meters or less); ? sensors operating in at least three spectral bands, or colors; ? frequent revisit of each area (1 to 2 days); ? relatively narrow field of view (10 to 15 miles); and ? quick delivery time to the media (24 hours or less). For purposes of discussion, OTA has selected a base- line system capable of 5 meters resolution that would satisfy most of the conditions the media say they need for a mediasat (table A-2 and table A-3). For compari- son, OTA also selected a less capable, but less costly minimum system capable of 10 meters resolution that could serve the interim needs of the media (table A-4). The sensor and associated electronics of the second, less capable system might be carried as an auxiliary package on a large spacecraft similar to the Omnistar satellite proposed by EOSAT. This step would allow news agencies to gain experience with using remotely sensed data in preparation for constructing a much more capable, but more costly, baseline system. A Mediasat System Although attention generally focuses on the sensors and their capabilities, the imaging instrument itself would be a small component of an overall satellite sys- tem capable of providing the data for media use. A ?See U.S. Congress, Office of Technology Assessment, Land Remote Sens- ing and the Private Sector: Issues for Discussion (Washington, DC: U.S. Government Printing Office, March 1984, for an extensive discussion of the history behind transfer of the Landsat system to the private sector. See also International Cooperation and Competition in Civilian Space Activities (Washington, DC: U.S. Government Printing Office, July 1985; and U.S. Congress, '"The Commercialization of Meteorological and Land Remote- Sensing Satellites," Hearings before the Subcommittee on Natural Resources, Agriculture Research and Environment and the Subcommittee on Space Science and Applications of the House of Representatives Committee on Science and Technology, 1983 [No. 53j. 'Not including launch costs, which were estimated to be $50 million to $70 million. ?Theresa M. Foley, "Reagan Asked to Intercede To Save Landsat Program," Aviation Week and Space Technology, Apr. 6, 1987, pp. 29-30. ?Note that viewing objects at an angle causes the resolution to decrease. In addition, objects in the shadow of tall structures will generally not be visible. 10Until at least 1990, the ability of the United States to launch payloads will be severely constrained. The first flight of the refurbished shuttle may not take place before late 1988. In addition, because building an expendable launch vehicle takes 2 years or more, even if a launcher were ordered in May 1987, it would not be ready until mid to late 1989. Table A?2.-Moderate and High-Performance Concepts Drive Sensor Cost Pushbroom optics ........ Refractive Reflective Focal lengthlf-number .. 60 cm; f/4 212 cm; f/6 Resolution at nadir ....... 10m 5m Number detectors and spacing ............... 512, 7?m 5,120, 15 ?m Swath width at nadir...... 5 km 25 km Pointing mechanics ...... One axis One axis System powerldata rate ... gimbel 10-30W/ gimbel 50.100W/ Sensor size (1 xWxH) .... 8.3 Mbps 30"x30"x30" 166 Mbps 60"x30"x30" Sensor weight ...........