(EST PUB DATE) THE STATE OF SCIENCE AND TECHNOLOGY ANALYSIS IN THE INTELLIGENCE COMMUNITY

Approved for Release: 2018/09/04 C01223258 Intelligence Science Board Task Force Report on The State of Science and Technology Analysis in the Intelligence Community April 2004 Office of the Director of Central Intelligence Washington, D.C. 20505 Approved for Release: 2018/09/04 C01223258 Approved for Release: 2018/09/04 C01223258 This report is a product of the Intelligence Science Board (ISB). The ISB advises the Director of Central Intelligence and senior Intelligence Community leaders on emerging scientific and technical issues of special importance to the Intelligence Community. Statements, opinions, conclusions and recommendations in this report do not necessarily represent the official position of any agency of the Intelligence Community. This report is S ET/ Approved for Release: 2018/09/04 CO1223258 Approved for Release: 2018/09/04 C01223258 SE ET/ TABLE OF CONTENTS TASKING LEI 1ER V TERMS OF REFERENCE VII TASK FORCE MEMBERSHIP IX EXECUTIVE SUMMARY XI Introduction xi Observations and Recommendations xiii IMPLICATIONS FOR INTELLIGENCE OF SCIENTIFIC AND TECHNOLOGICAL CHANGE 1 SCIENCE AND TECHNOLOGY AND THE INTELLIGENCE COMMUNITY 13 CONCLUSIONS, OBSERVATIONS, AND RECOMMENDATIONS 25 Conclusions 25 General Observations 25 Specific Observations and Recommendations 32 APPENDIX A: A MINORITY VIEW OF S&T INTELLIGENCE RESPONSIBILITY ...... 41 APPENDIX B: INDICATORS OF THE CHANGING NATURE OF WORLDWIDE S&T 45 APPENDIX C: REFERENCES 59 APPENDIX D: ACRONYMS AND ABBREVIATIONS 61 Approved for Release: 2018/09/04 C01223258 Approved for Release: 2018/09/04 C01223258 SE ETO This page intentionally left blank. Approved for Release: 2018/09/04 C01223258 Approved for Release: 2018/09/04 C01223258 RET/ V Approved for Release: 2018/09/04 CO1223258 Approved for Release: 2018/09/04 C01223258 SE This page intentionally left blank. Approved for Release: 2018/09/04 C01223258 Approved for Release: 2018/09/04 C01223258 CRET/ FOR OFFICIAL USE ONLY TERMS OF REFERENCE INTELLIGENCE SCIENCE BOARD TASK FORCE SCIENCE AND TECHNOLOGY ANALYSIS CAPABILITY (UHFOU0) The Intelligence Science Board (ISB) is requested to establish a task force to address the issues related to maintaining an adequate science and technology (S&T) analysis work force and capability for the Intelligence Community (IC). (UHFOU0) Since the end of the cold war, the number of S&T analysts in the IC has decreased dramatically, and the threat to national security comes from an ever- increasing number of state and non-state actors. Currently, much information concerning foreign S&T resides in the public sector. Technological advances with security implications, such as information technology, nanotechnology, and biotechnology, are driven by the commercial market and commercial research and development (R&D) funds. The global economy tends to disperse this cutting edge technology to all parts of the world, creating a much different and potentially more dangerous environment than that which existed during the relatively well-defined Cold War years. (UNFOU0) There have been a number of recent studies and reviews performed by the IC to define and address the level of S&T analysis, such as work of the Science and Technology Intelligence Committee (STIC) and programs such as the Science and Technology Expert Partnership (STEP). The capability to do the necessary intelligence S&T analysis in the current environment will require a combination of knowledgeable IC analysts and access to the commercial S&T community. (UHFOU0) The S&T Analysis Task Force should: � Review the current status of the S&T analysis work force using information recently generated by the IC. � Analyze the appropriate role for the S&T intelligence analyst in today's global environment with its complex and well-paid technology work force. � Analyze an appropriate manpower level for S&T analysts in the IC. � Construct and assess appropriate paradigms to meet S&T analysis capability needs for the IC. Consider the STEP process, MEDEA, and other means to provide the IC requisite S&T capabilities. (UHFOU0) This study will be sponsored by the National Intelligence Officer for vii Approved for Release: 2018/09/04 C01223258 Approved for Release: 2018/09/04 C01223258 S ET/ Science and Technology (NIO/S&T). The Task Force should convene in February 2003 and report its results within six months with interim briefings as appropriate. Task Force reports shall be submitted to the NIO/S&T with copies provided to the Director of Central Intelligence (DCI), the Deputy DCI for Community Management, the Assistant DCI for Collection, the Assistant DCI for Analysis and Production, and the Director, DS&T. viii FOR OFFICIAL USE ONLY Approved for Release: 2018/09/04 C01223258 Approved for Release: 2018/09/04 C01223258 TASK FORCE MEMBERSHIP TASK FORCE MEMBERS RAND Corporation Raytheon NTI CENTRA Technologies, Inc. NGIC, 511C Los Alamos National Laboratory PARTICIPANTS The MITRE Corporation The MITRE Corporation Approved for Release: 2018/09/04 C01223258 Approved for Release: 2018/09/04 C01223258 This page intentionally left blank. Approved for Release: 2018/09/04 C01223258 Approved for Release: 2018/09/04 C01223258 EXECUTIVE SUMMARY INTRODUC I ION Dr. Lawrence Gershwin, National Intelligence Officer (NIO) for Science and Technology, tasked the Intelligence Science Board (TSB) to review the state of Science and Technology (Intelligence) (S&T(I)) within the Intelligence Community (IC), including issues related to the work force. In the years following the end of the cold war the threat from a single bad actor (the Soviet Union) has been replaced by a threat to national security from an ever-increasing number of state and non- state actors, many with current or near-current access to weapons of mass destruction (WMD) � or perhaps weapons of mass hysteria (WMH). Technology has become the engine for global change, with the most important drivers (information technology (IT), biotechnology, nanotechnology, advanced materials, etc.) being pursued by global commercial enterprises. This raises new concerns about advanced technology in the service of foreign intelligence and terrorism in non-weapon ways (communications, covert influence, collection, dissemination, etc.). Much of the information about technology development and potential applications is reported in the open press, further complicating the S&T(I) analysts' mission, even while the actual number of S&T(I) analysts has decreased significantly in the last decade. With this as a background, the ISB S&T(I) Task Force was asked to examine the state of S&T analysis, to determine the adequacy of the current S&T(I) work force in terms of rough numbers of analysts, and to investigate the need for any new paradigms to address S&T(I) analysis capabilities in the current and future threat environments. The Task Force was also charged with developing recommendations that the IC could readily implement. xi Approved for Release: 2018/09/04 C01223258 Approved for Release: 2018/09/04 C01223258 In the main body of this report we demonstrate why technology is such an important driver in national security affairs. We review the many actions taken and programs generated by the IC to address S&T analysis across the board. With respect to commercial technologies we observe that if the IC does nothing fundamentally different it will continue to provide little of use to its consumer base in current intelligence and do nothing to reduce the probability of technological surprise. (Technological surprise is defined as both the application of known technologies in unexpected ways and the use of unforeseen technological breakthroughs not under U.S. control.) In fact, considering the complexity of commercial technologies, the lack of expertise in these technologies within the IC S&T(I) community, and the rapid pace of technological advances, the United States is more likely to be surprised than ever before. Moreover, all this is occurring in today's threat environment, characterized by multiple, dispersed, unpredictable adversaries with demonstrated ability to apply commercially available technology to meet their particular needs and with increasing access to WMD and WMH and their delivery systems. With respect to the more conventional military S&T(I), where most information is classified, we review the current numbers of analysts and the new tools and programs now available to analyze them. The IC has recently established new initiatives to develop a better understanding of the numbers and capabilities of the S&T(I) work force using state-of-the-art information technology tools that should provide a clearer picture of the IC's S&T(I) census and areas of coverage. We commend the IC for the many initiatives it has taken to strengthen S&T across the board. Many of our basic recommendations were actually made by the IC in the Director of Central Intelligence's (DCI's) 1999 Strategic Intent, which responded to the 1998 review of the IC's S&T program conducted by the President's Foreign Intelligence Advisory Board (PFIAB). These recommendations were just not acted upon in an aggressive enough manner. They fall into the categories of increasing the numbers of scientists rotating through the IC, increasing collaboration, and reinstating the use of competitive analyses. These recommendations Approved for Release: 2018/09/04 C01223258 Approved for Release: 2018/09/04 C01223258 are not meant to replace existing programs, nor are they the complete solution to this complex problem. However, they are both crucial to an improved S&T(I) analytic work force and relatively easy to implement, and would be welcomed across a broad community of the IC and its consumer base. OBSERVATIONS AND RECOMMENDATIONS (U) While the IC has made significant progress in all parts of its S&T program since its response to the 1998 PFIAB report, the S&T(I) effort devoted to foreign S&T has not kept pace with the advances in and globalization of critical emerging technologies, and some remedial action is urgently needed. Observation 1 The IC's S&T(I) capability is not what it could be and not what the nation needs. This is particularly true in areas where rapidly changing, commercially driven, emerging technologies intersect intelligence interests, including those directly and indirectly related to WMD. Strengthening the intelligence analyst's ability to fully appreciate the impact of emerging technologies is critical if we are to limit the probability of future technological surprise and increase our margin of warning. One way� and there are many�to achieve this is to borrow techniques already used successfully within the Department of Defense (DoD) and sporadically within the IC to rotate non-government experts such as scientists and engineers into government service for periods of approximately two years (perhaps more in some cases). Leading-edge scientists from commercial and government laboratories can be located, recruited, cleared, and assigned to various offices and elements within the IC. They can "live" with the IC S&T analysts, sharing their profound knowledge of the technology in question and in turn becoming familiar with intelligence needs. Through their knowledge of the outside community they can empower IC analysts to make more effective use of existing IC outreach programs: to become smarter buyers for external Approved for Release: 2018/09/04 C01223258 Approved for Release: 2018/09/04 C01223258 SE participation by identifying the most valuable conferences, lectures, or research studies and papers in a given field and grasp the implications of current foreign technological developments more quickly. The scientists would then return to their outside jobs, clearances intact, and remain available sources of interaction with the IC S&T analysts and the external, commercially driven S&T community. Locating, recruiting, and clearing such experts is a daunting task, especially for individual IC analysts or their particular offices or divisions. Yet the DoD has done this effectively and is currently expanding its efforts as it strengthens its own S&T intelligence capabilities. The IC can and must do so as well if it is to give its customers a better chance of limiting technological surprise. The cost is modest, to say the least, and, given the potential benefits and what is at stake, the impact, if the effort is successful, would help reverse the disturbing trend of S&T(I) analysis, especially as regards emerging technologies in areas directly and indirectly related to WMD. Recommendation 1 n Set up a community function to locate, recruit, and clear it�ading-edge scientists from the "outside" and make them available to the relevant elements within the IC These experts should be required to spend a minimum of two years within the IC and to maintain their clearances when they return to their non-government careers. This recommendation is modeled on successful efforts used within the Defense Department and, sparingly, within the IC. Implementing this program will strengthen the IC's own career S&T staff and provide them continued access to the cleared scientists who return to their outside careers in critical areas. Establishing a community function to accomplish this will relieve the individual IC elements from the rather daunting tasks of locating, clearing, and managing ongoing relationships with appropriate candidates. The authority to perform this function already resides within the office of the Chief Technology Officer. Approved for Release: 2018/09/04 C01223258 'Approved for Release: 2018/09/04 C01223258 Observation 2 S&T(I) analysts do not adequately share the benefits of many of the new outreach efforts among different agencies or even among offices within any given agency. This is clearly wasteful. One program now under development will use modern information technology tools to collect and make available knowledge of domestic and foreign scientific conferences. In this day and age, when commercial services flash breaking news headlines and stock market prices across the screen of any desktop computer, the IC can certainly do a more effective job of permitting collaboration and sharing knowledge. Recommendation 2 rProvide all relevant IC elements with the opportunity to become aware of and, if appropriate, share the benefits of the many recently developed and funded outreach efforts of individual IC elements. Collaboration and networking techniques and support systems should be implemented to spread the benefits from all outreach efforts to the relevant analysts across the entire IC. The ADCI (AV) has initiated an effort to collect and distribute information concerning foreign conferences to appropriate analysts. This would a natural office to expand the application of advanced IT tools to achieve some significant level of collaboration amongst the various outreach activities. Observation 3 Our judgment, supported by all information available to date, is that while we have concern about quality, the IC must also seek some increase in the numbers of S&T(I) analysts. However, the appropriate level is difficult to quantify, although our sense is that the required increase is modest, perhaps several dozen. The "numbers argument" has been advanced by others using the simple expedient of comparing "numbers" during the cold war years to current "numbers," although we do not believe this to be a terribly meaningful metric to apply to this problem. XV Approved for Release: 2018/09/04 C01223258 Approved for Release: 2018/09/04 C01223258 SE /, Other issues with the S&T(I) work force came to our attention. Some of the S&T (I) accounts go back to cold war days. It may be useful to reexamine the currency of these accounts formally and on an annual basis. Some will remain the same, but others will undoubtedly change�not necessarily in content, but in the manner in which they are organized, addressed, and analyzed. This may be particularly relevant to many of the emerging technology threats, such as the cyber threat. In order for the consumer to understand the magnitude and implications of this emerging S&T threat the IC needs to develop and present a complete picture. Piecemeal intelligence bits (especially some current-intelligence bits) only leave the consumer confused as to the seriousness of the threat. Recommendation 3 Rapidly apply newly available census information (such as the Analytic Resources Catalog (ARC)) to monitor in detail the staffing levels being applied across S&T(I) issues. Having current visibility into the numbers, along with regular assessments of product quality, will facilitate making more informed judgments as to the true shortage in S&T(I) analysts (in light of competing priorities). Such judgments, conducted by experienced and capable analysts, should be based upon coverage required on crucial areas rather than on a simple comparison of numbers. If the current ARC does not contain enough detail on individual S&T areas, additional census information may be required.' This approach should be used to redefine the "accounts" as necessary, It should also be used as a systems tool to organize different S&T(I) accounts under broad threat categories so that the consumer can readily appreciate the impact of individual pieces of threat analysis. This is particularly critical in current-intelligence estimates, especially in the emerging commercial area where "tidbits" of raw intelligence appear in the world press. Observation 4 The problem of "failed assumptions," or blind spots, plagues not merely the IC, but all aspects of our society. This was pointed out in a recent speech by the Associate Deputy Director of Intelligence 1 The ARC does not go into detail on S&T areas. For example, everyone who works on "Emerging and Disruptive Technologies" is captured in one "bin." xvi Approved for Release: 2018/09/04 C01223258 Approved for Release: 2018/09/04 C01223258 and in a recent speech by the DCI, who stated that intelligence is "never all right or all wrong." This issue can be especially vexing in S&T analysis, because the number of analysts who have technical expertise in any particular subject area tends to be very small (often one), thus limiting the possibilities that alternative assumptions will emerge. When a basic assumption is taken as "truth" the consequences may include failure to recognize and/or request information that would support an alternative path and might lead ultimately to an alternative assessment. Some corrective measures recently instituted, such as external and internal pre-publication reviews, may help in this regard, although a more certain approach involves competitive analysis at all levels of the analytic process. Competitive analysis requires not just enough capability to produce one finding but enough analytic expertise across domains to produce independent analysis and findings. The IC must ask itself if it is doing everything possible to limit the number of times it is wrong. This would increase its credibility, which is essential to supporting our current pre-emptive national security strategy. Recommendation 4 Develop a program within the S&T community to introduce an appropriate level of competitive analysis into its intelligence production, one that truly challenges basic assumptions before they are elevated to "truths." Any competitive analysis program should be carried out in a substantive, sustained manner, both to limit misjudgments and to improve consumers' confidence in IC S&T(I) products. A useful learning experience in this regard would be to revisit selected controversial cases from the recent past, hypothesize different base assumptions, and determine if a defensible, alternative analysis can be developed. This activity warrants the personal and continuous attention of the Chairman of the National InteNence Council. xvii Approved for Release: 2018/09/04 C01223258 Approved for Release: 2018/09/04 C01223258 xviii Recommendation 5 IC management should take the necessary steps with respect to career growth to ensure that the S&T work force is encouraged to make the basic changes recommended above. Career paths and career growth were paid lip service in the response to the PFIAB report. Some specific goa6 and milestones need to be established before this will happen. Beyond these observations and recommendations, there is a larger and less conventional view of the question of S&T(I) that may warrant more attention than the Task Force has devoted to it. Consider as an example the rapid, commercially driven and globally based growth in the world of genetics and genetic engineering. It is reasonable to believe that all information of value concerning this technology, its future prospects and growth, where it is being developed, and to whom it is accessible exists in the public literature, including in the professional literature shared among the world's experts in this subject matter. In such an example the IC, no matter how much better it gets, is ill-positioned to be the community that advises/warns the policy maker of the future threats this technology poses to our national security in the broadest sense. Obviously, additional examples have the same characteristics and there is no reason to believe that if current trends in globalization, commercial support of critical technologies, outsourcing, etc., continue this new paradigm will not develop further. One member of our Task Force has offered a minority view. He suggests that for these emerging conditions, the nation's S&T community should be given a much broader mandate to address the S&T aspects of future threats more fully. The organizational arrangements would have to be worked out. This is discussed further in Appendix A. Approved for Release: 2018/09/04 C01223258 Approved for Release: 2018/09/04 C01223258 IMPLICATIONS FOR INTELLIGENCE OF SCIENTIFIC AND TECHNOLOGICAL CHANGE In his book The Art of the Long View Peter Schwartz notes: "The most frequent failure in the history of forecasting has been grossly underestimating the impact of technologies."2 This view is central to the concern that created this Task Force. The challenges for our Task Force were assessing whether the Intelligence Community (IC), in its analytical efforts, may be underestimating the need to assess these effects, whether the IC is positioned to assess these effects, and how the IC might alleviate any deficiencies. Currently, science and technology (intelligence) (S&T(I)) analysts in the IC are the "front line" for conducting S&T impact assessments. S&T(I) analysts are charged with assessing and forecasting how technology developed by, absorbed by, or stolen by foreign entities is already affecting, or will affect in the future, the security of the United States. They must understand multiple technologies well enough to recognize ways in which imaginative opponents may apply them to harm U.S. interests; and, of course, they must understand the culture, economics, and other characteristics of the particular state and non-state actors that are today's dominant threat to U.S. national security. S&T(I) analysis was a sufficiently daunting job during the cold war years when the critical technologies (i.e., elements of missiles, submarines, bombers, and space systems) were funded and controlled by the two superpowers, and essentially all the experts on these subjects were within the respective governments. Then the pace of technological advancement was slower than it is today, and deterrence was a strategy that both superpowers appreciated. Now, the most critical and most rapidly evolving technologies � information technology (IT), nanotechnology, biotechnology, energy, aerospace, etc. � are driven by a commercial marketplace that is 2 Schwartz, Peter, The Art of the Long View: Planning for the Future in an Uncertain World (New York: Currency Doubleday, 1995). 1 Approved for Release: 2018/09/04 C01223258 Approved for Release: 2018/09/04 C01223258 increasingly global in nature and readily available to foreign state and non-state actors. At the same time, not only has the number of S&T(I) analysts been reduced, but the availability to the IC of critical skills in emerging technologies, i.e., non-IC research scientists who fully appreciate the capabilities of the technology, is also limited. This section outlines why the changing nature of S&T has significant (yet sometimes obscure) import for intelligence, especially when dealing with future problems that have not become current intelligence crises. The IC must not be caught off guard in the future from grossly underestimating today how S&T affects national security. The Nature of S&T Has Changed! The S&T environment of today is very different from that of decades past. S&T is in a kind of global technology revolution. S&T developments are both accelerating and being absorbed globally to the extent that they are revolutionizing the world. A National Intelligence Council (NIC)-funded study outlines many of these S&T trends out to 2015.3 Appendix B of this report contains some highlights from a National Science Board (NSB) report on science and engineering indicators. One significant change involves the decreasing importance of U.S. R&D funding from the federal government, with an increasing share provided by industry. This change is often identified with the end of the cold war, although, as Figure 1 shows, the trend has been decades in the making, with the peak in the federal share occurring in the early 1960s. 3 Anton, Philip S., Richard Silberglitt, and James Schneider, The Global Technology Revolution: Bio/Nano/Materials Trends and Their Synergies with Information Technology by 2015, RAND Corporation, MR-1307-NIC, Santa Monica, California, 2001. URL: http: / / www. rand. or g/pu blica tions/ MR/MR1307/ 2 Approved for Release: 2018/09/04 C01223258 Approved for Release: 2018/09/04 C01223258 SE Percent of so 70 so 50 40 30 20 10 funding Figure 1 Changing Sources of R&D Funding in the United States Commenting on this trend, the National Science Foundation's NSB stated: "Indeed, the most significant trend among the G-7 and other OECD countries has been the relative decline in government R&D funding in the 1990s. In 1998, less than one-third of all R&D funds were derived from government sources, down considerably from the 45 percent share reported 16 years earlier."4 Not only has U.S. R&D funding become more of a private sector responsibility, but it has also become more globalized. For the period 1989-1999, Figure 2 shows the funding of U.S. R&D in two categories, performed in the United States by U.S. affiliates of foreign companies (Foreign R&D), and performed abroad by foreign affiliates of U.S. companies (Overseas R&D). 4 National Science Board [hereafter NSB], Science and Engineering Indicators - 2002 (Washington, D.C.: National Science Foundation, 2002). 3 Approved for Release: 2018/09/04 C01223258 Approved for Release: 2018/09/04 C01223258 Billions of current dollars 20 �Foreign R&D Overseas R&D 15 10 5 0 1989 1994 1995 1996 1997 NOTES: Foreign R&D refers to R&D perfolmed in the United States by U.S. affiliates of foreign parent companies. Overseas R&D refers to R&D performed abroad by foreign affiliates of U.S. parent companies. Figure 2 Globalization of U.S. Industrial R&D While Overseas R&D has risen by about a factor of two, Foreign R&D has risen about fourfold. The former is an indicator of increasing capabilities abroad to conduct R&D, while the latter presumably indicates both a desire by foreign affiliates to capture U.S. technology and the financial attractiveness of investments in U.S. firms during this period. For our purposes, a key issue is not only the status of R&D, but also the rapidity with which scientific discoveries are absorbed into practical, available technology. This difficult-to-measure quantity was addressed by the National Research Board (NRB) using the proxy of the number of scientific research papers (citations) appearing in patent applications in the United States. The NRB, stating, "...citations of scientific and technical articles provide an indicator of the growing link between research and innovative application...," provided the data appearing in Figure 3 (red curve). Approved for Release: 2018/09/04 C01223258 Approved for Release: 2018/09/04 C01223258 1C