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Source: CRS analysis of data from Analytical Perspectives, Budget of the United States Government, Fiscal Year 2017. |
he Department of Defense (DOD) receives nearly half of all federal research and development (R&D) appropriations, and more than twice that of the next largest federal recipient, the Department of Health and Human Services.1 The work funded by these appropriations plays a central role in the nation's security as well as an important role in U.S. global leadership in science and technology.
This report provides an introduction to the structure of DOD's research, development, test, and evaluation (RT&E) budget for staff attempting to understand DOD RDT&E appropriations. In its annual budget request to Congress, DOD presents its RDT&E by organization and program and by the character of the work to be performed. The RDT&E request is summarized in a supporting budget document titled "Research, Development, Test, & Evaluation Programs (R-1)," which is often referred to simply as the R-1.2
Organization and Program Structure
DOD RDT&E appropriations are provided annually through the defense appropriations act, one of the 12 regular appropriations acts that provide most of the discretionary funding for operation of the federal government.3 Generally, DOD RDT&E funding is provided in four of the act's titles (see box). More than 95% of DOD's RDT&E funding is appropriated in Title IV (Research, Development, Test, and Evaluation), which includes RDT&E appropriations for the Army, Navy, Air Force, a Defense-wide RDT&E account, and the Director of Operational Test and Evaluation. Within each of these accounts are dozens of program elements (PEs) that specify funding for particular activities (e.g., night vision technology, aviation survivability, cyber operations technology development).
RDT&E funds are also appropriated for programs in other parts of the act. For example, RDT&E funds are appropriated as part of the National Defense Sealift Fund, the Chemical Agents and Munitions Destruction Program, and the Defense Health Program.
The National Defense Sealift Fund supports the procurement, operation and maintenance, and research and development of the nation's naval reserve fleet and supports a U.S.-flagged merchant fleet that can serve in time of need. The RDT&E funding for this effort is requested in the Navy's Procurement request and appropriated in Title V (Revolving and Management Funds) of the appropriation act. President Obama requested no RDT&E funds for the National Defense Sealift Fund for FY2017.
The Chemical Agents and Munitions Destruction Program supports activities to destroy the U.S. inventory of lethal chemical agents and munitions. Funds for this program are requested through the Defense-wide Procurement appropriations request. Congress appropriates funds for this program in Title VI (Other Department of Defense Programs).
The Defense Health Program (DHP) supports the delivery of health care to DOD personnel and their families. DHP funds (including any RDT&E funds) are appropriated in Title VI. The program's RDT&E funds support congressionally directed research on breast, prostate, and ovarian cancer; traumatic brain injuries; orthotics and prosthetics; and other medical conditions.
RDT&E funds also have been requested and appropriated as part of DOD's separate funding to support Overseas Contingency Operations (OCO, formerly the Global War on Terror (GWOT)). Typically, the RDT&E funds appropriated for OCO activities in Title IX support specified PEs in Title IV. However, they are requested and accounted for separately. The Bush Administration requested these funds in separate GWOT emergency supplemental requests. The Obama Administration, while continuing to identify these funds uniquely as OCO requests, has included these funds as part of the regular budget, not in emergency supplemental requests. However, the Obama Administration has sometimes asked for additional OCO funds in supplemental requests.
The Joint Improvised-Threat Defeat Fund (JIDF, formerly the Joint Improvised Explosive Device Defeat Fund) works to counter improvised threats (e.g., improvised explosive devices (IEDs)) through tactical responsiveness and anticipatory, rapid acquisition. Some of the funds appropriated to JIDF are used for RDT&E even though the fund does not contain an RDT&E line item. Under the President's FY2017 request, JIDF would be funded entirely by the OCO budget.
In addition, OCO-related requests and appropriations often include funds for a number of transfer accounts.4 In the past, these have included the Iraqi Freedom Fund (IFF), the Iraqi Security Forces Fund, the Afghanistan Security Forces Fund, and the Pakistan Counterinsurgency Capability Fund. Congress typically makes a single appropriation to each of these funds and authorizes the Secretary of Defense to make transfers to other accounts, including RDT&E, subject to certain limitations. These transfers are eventually reflected in prior-year funding figures for DOD Title IV.5
Character of Work Structure
While DOD Title IV appropriations are made by organization (e.g., Research, Development, Test and Evaluation, Army), the DOD R-1 and congressional appropriations reports and explanatory statements also typically characterize this funding by the character of work to be performed. This characterization is provided in seven categories, each with a budget activity code (6.1 through 6.7) and a description (see Table 1).
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Code |
Description |
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6.1 |
Basic Research |
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6.2 |
Applied Research |
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6.3 |
Advanced Technology Development |
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6.4 |
Advanced Component Development and Prototypes |
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6.5 |
System Development and Demonstration |
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6.6 |
RDT&E Management Support |
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6.7 |
Operational System Development |
Source: Department of Defense, Financial Management Regulation (DoD 7000.14-R), Volume 2B, March 2016.
DOD's Financial Management Regulation (DoD 7000.14-R) provides a detailed description of the types of activities supported in each budget activity category:6
[6.1] Basic Research. Basic research is systematic study directed toward greater knowledge or understanding of the fundamental aspects of phenomena and of observable facts without specific applications towards processes or products in mind. It includes all scientific study and experimentation directed toward increasing fundamental knowledge and understanding in those fields of the physical, engineering, environmental, and life sciences related to long-term national security needs. It is farsighted high payoff research that provides the basis for technological progress. Basic research may lead to: (a) subsequent applied research and advanced technology developments in Defense-related technologies, and (b) new and improved military functional capabilities in areas such as communications, detection, tracking, surveillance, propulsion, mobility, guidance and control, navigation, energy conversion, materials and structures, and personnel support…
[6.2] Applied Research. Applied research is systematic study to understand the means to meet a recognized and specific need. It is a systematic expansion and application of knowledge to develop useful materials, devices, and systems or methods. It may be oriented, ultimately, toward the design, development, and improvement of prototypes and new processes to meet general mission area requirements. Applied research may translate promising basic research into solutions for broadly defined military needs, short of system development. This type of effort may vary from systematic mission-directed research beyond that in [6.1] to sophisticated breadboard hardware, study, programming and planning efforts that establish the initial feasibility and practicality of proposed solutions to technological challenges. It includes studies, investigations, and non-system specific technology efforts. The dominant characteristic is that applied research is directed toward general military needs with a view toward developing and evaluating the feasibility and practicality of proposed solutions and determining their parameters. Applied Research precedes system specific technology investigations or development…
[6.3] Advanced Technology Development (ATD). This budget activity includes development of subsystems and components and efforts to integrate subsystems and components into system prototypes for field experiments and/or tests in a simulated environment. [6.3] includes concept and technology demonstrations of components and subsystems or system models. The models may be form, fit, and function prototypes or scaled models that serve the same demonstration purpose. The results of this type of effort are proof of technological feasibility and assessment of subsystem and component operability and producibility rather than the development of hardware for service use. Projects in this category have a direct relevance to identified military needs. Advanced Technology Development demonstrates the general military utility or cost reduction potential of technology when applied to different types of military equipment or techniques… Projects in this category do not necessarily lead to subsequent development or procurement phases, but should have the goal of moving out of Science and Technology (S&T) and into the acquisition process within the Future Years Defense Program (FYDP). Upon successful completion of projects that have military utility, the technology should be available for transition.
[6.4] Advanced Component Development and Prototypes (ACD&P). Efforts necessary to evaluate integrated technologies, representative modes, or prototype systems in a high fidelity and realistic operating environment are funded in this budget activity. The ACD&P phase includes system specific efforts that help expedite technology transition from the laboratory to operational use. Emphasis is on proving component and subsystem maturity prior to integration in major and complex systems and may involve risk reduction initiatives…
[6.5] System Development and Demonstration (SDD). System Development and Demonstration (SDD) programs…[conduct] engineering and manufacturing development tasks aimed at meeting validated requirements prior to full-rate production. This budget activity is characterized by major line item projects…Prototype performance is near or at planned operational system levels. Characteristics of this budget activity involve mature system development, integration, demonstration,…conducting live fire test and evaluation, and initial operational test and evaluation of production representative articles…
[6.6] RDT&E Management Support. This budget activity includes management support for research, development, test, and evaluation efforts and funds to sustain and/or modernize the installations or operations required for general research, development, test, and evaluation. Test ranges, military construction, maintenance support of laboratories, operation and maintenance of test aircraft and ships, and studies and analyses in support of the RDT&E program are funded in this budget activity. Costs of laboratory personnel, either in-house or contractor operated, would be assigned to appropriate projects or as a line item in the Basic Research, Applied Research, or ATD program areas, as appropriate. Military construction costs directly related to major development programs are included in this budget activity.
[6.7] Operational System Development. This budget activity includes development efforts to upgrade systems that have been fielded or have received approval for full rate production and anticipate production funding in the current or subsequent fiscal year…
Funding in budget activity codes 6.1-6.3 is referred to by DOD as the science and technology (S&T) budget. This portion of DOD RDT&E is often singled out for attention by analysts as it is seen as the pool of knowledge necessary for the development of future military systems. In contrast, 6.4, 6.5, and 6.7 funds are focused on the application of existing scientific and technical knowledge to meet current or near-term operational needs. The funds in 6.6 are for RDT&E management may support work in any of the other RDT&E budget accounts. Within the S&T program, basic research (6.1) receives special attention, particularly by the nation's universities. DOD is not a large supporter of basic research when compared to the National Institutes of Health or the National Science Foundation. However, more than half of DOD's basic research budget is spent at universities, and it represents the major source of federal funds in some fields (such as electrical engineering, 53.6%; aeronautical and astronautical engineering, 50.3%; mechanical engineering, 42.3%; and metallurgical and materials engineering, 41.2%).
Alignment with Other Federal R&D Taxonomies
The Office of Management and Budget (OMB) characterizes federal R&D funding in four categories: basic research, applied research, development, and facilities and equipment. With respect to Title IV funding, in general, DOD 6.1 funding is reported under OMB's basic research classification and 6.2 funding is reported as applied research. Historically, 6.3-6.7 funding has been reported as development.7 However beginning in FY2018 OMB will no longer include 6.7 funding in its R&D reporting.8 Some DOD 6.1-6.5 funding may be reported under OMB's facilities and equipment classification.
The National Science Foundation (NSF) collects R&D appropriations and performance data from all federal R&D agencies through its annual Survey of Federal Funds for Research and Development. The survey requests most agencies to identify their R&D activities in three categories: basic research, applied research, and development. NSF uses a modified survey for collecting DOD R&D data in which the development category is divided into two subcategories: advanced technology development and major systems development. DOD uses the following crosswalk to respond to the NSF survey: 6.1 funding is reported under NSF's basic research category, 6.2 funding is reported as applied research, 6.3 is reported as advanced technology development, and 6.4–6.7 funding is reported as major systems development.
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Source: CRS analysis of email communications from OMB and NSF. |
RDT&E Funding
This section provides a number of figures that illustrate DOD RDT&E budget trends for the FY1996-FY2015 period. Figure 3 illustrates DOD Title IV RDT&E funding in current dollars by character of work. DOD RDT&E funding provided in other appropriations titles are not included in the character of work (6.1-6.7) taxonomy; inclusion of these funds might affect the balance among the categories.
Figure 4 illustrates DOD RDT&E funding for FY1996-FY2015 in constant FY2017 dollars. Between FY2000 and FY2007, total DOD RDT&E funding rose by 73% in constant dollars, remained flat through FY2010, then fell by 24% between FY2010 and FY2013.
Figure 5 illustrates the composition of RDT&E in FY2015 by character of work. Operational System Development was the largest component (36.7%). Science and technology (6.1–6.3) accounted for 18.8% of total RDT&E.
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Source: CRS analysis of data from Department of Defense, Research, Development, Test, and Evaluation Programs (R-1) for FY2017. |
Figure 6 illustrates the composition of Title IV RDT&E funding by organization. Title IV provided $64.1 billion of $66.4 billion (96.5%) of total DOD RDT&E in FY2015.
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Source: CRS analysis of data from Department of Defense, Research, Development, Test, and Evaluation Programs (R-1) for FY2017. |
Selected Issues
Through the authorization and appropriations processes, Congress grapples with a wide-variety of issues related to the magnitude, allocation, and strategic direction of defense RDT&E. These decisions play an important role in U.S. national security and economic strength. This section identifies several of these issues: the level of DOD RDT&E funding, the level of DOD S&T funding, the level of DOD basic research, and the balance between incremental-focused and revolutionary-focused DOD RDT&E.
While S&T and basic research are integral components of the DOD RDT&E whole, these elements are treated separately in this analysis. In practice, appropriations decisions are generally made about specific programs within the context of the available funding. The levels of RDT&E, S&T, and basic research funding are the result of many decisions made during DOD budget formulation and congressional appropriations, and in the end, are calculated on a post-facto basis. Nevertheless, an analysis of the kind that follows may be useful in assessing the "big picture" and in seeing funding trends in the context of an historical arc that may provide strategic insight and guidance.
What Is the Appropriate Funding Level for DOD RDT&E?
Each year Congress makes decisions about funding for DOD RDT&E. Authorization and appropriations levels, as well as programmatic priorities, are influenced by a wide range of factors, including current military engagements and international commitments, near-term national security threats, the perceived need for technology capabilities to address emerging and unanticipated threats, RDT&E funding and capabilities of adversaries and potential adversaries, RDT&E funding of allies, prior commitments to multi-year programs, competing demands for resources to support non-RDT&E DOD (e.g., personnel, acquisitions) and other federal non-DOD activities, the prior year's funding level, anticipated government revenues, and appropriations constraints (e.g., budget caps).
Approach: DOD RDT&E as a Share of DOD Funding
The question "What is the appropriate funding level for DOD RDT&E?" does not lend itself to a clear objective answer, in part because such an assessment necessarily depends on subjective assumptions about need and adequacy. Nevertheless, the question has been a focus of analysis and debate in Congress and DOD for some time. For example, in June 1998, the Defense Science Board (DSB) Task Force on the Defense Science and Technology Base for the 21st Century proposed the use of a standard industry benchmark—R&D as a share of sales—substituting total DOD funding for sales. The report stated:
Using the pharmaceutical industry as a model, [the data show] about 14% of revenue devoted to research and development. With current DoD funding of about $250 billion, a total DoD research and development funding level of about $35 billion is indicated or close to the current DoD level.9
Related Data and Discussion
Figure 7 illustrates DOD Title IV RDT&E for the period FY1996-FY2015. Between FY1996 and FY2001, RDT&E grew slowly. Between FY2000 and FY2010, RDT&E grew more rapidly, more than doubling in current dollars from $38.8 billion to $80.7 billion. (In constant dollars, RDT&E grew by 72.3% from FY2000 to FY2010.) Between FY2010 and FY2015, RDT&E fell to $64.1 billion.
As a percentage of DOD's total obligational authority (TOA), RDT&E generally ranged between 13% and 14% between FY1996 and FY2005, but then slid to around 11% in FY2011 and remained there through FY2015. (See Figure 8.)
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obligational authority, in billions of current dollars |
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Source: CRS analysis of data from Department of Defense, Research, Development, Test, and Evaluation Programs (R-1) for FY1998-2017. |
One challenge of using the metric of RDT&E as a share of DOD TOA is that during times of conflict, DOD TOA can increase substantially due to the cost of operations, replacing expended munitions, and increased force size. Thus even when RDT&E is increasing, it may decline as a share of DOD TOA. This is illustrated in Figure 7 and Figure 8 between FY2004 and FY2008, a period in which RDT&E grew by 23.4% and DOD TOA grew by 46.8% in support of U.S. post-9/11 military operations in the Middle East.
What Is the Appropriate Funding Level for DOD Science and Technology?
Congress and others have also expressed concerns about the adequacy of funding for the piece of DOD RDT&E known as defense science and technology (6.1-6.3). The scientific and technological insights that emerge from this funding, often referred to as the department's "seed corn," are seen by many as the pool of knowledge available to DOD and the industrial base for future defense technology development.10 For this reason, defense S&T funding has sometimes been singled out for attention by Congress.
Approach: DOD Science and Technology as a Share of Total DOD Funding
As with overall RDT&E, the DSB's June 1998 report suggested two conceptual frameworks for S&T funding. The first approach, using industrial practice as a guide, proposed setting S&T funding at 3.4% of total DOD funding:
The DoD S&T budget corresponds most closely to the research component of industrial R&D. Using 3.4% of revenue (typical of high-tech industries shown [elsewhere in the report]), the DoD S&T funding should be about $8.4 billion, which is a billion dollars greater than the FY98 S&T funding.11
To address this perceived shortcoming in funding, the FY1999 defense authorization bill (P.L. 105-261, Sec. 214) expressed the sense of Congress that DOD S&T funding should be increased by 2% or more above the inflation rate each year from FY2000 to FY2008. Subsequently, the FY2000 defense authorization bill (P.L. 106-65) expressed the sense of Congress that
the Secretary of Defense has failed to comply with the funding objective for the Defense Science and Technology Program, especially the Air Force Science and Technology Program, as stated [P.L. 105-261], thus jeopardizing the stability of the defense technology base and increasing the risk of failure to maintain technological superiority in future weapon systems.12
The act further expressed the sense of Congress that the Secretary of Defense should increase DOD S&T, including the S&T programs within each military department, by 2% or more above the inflation rate each year from FY2001 to FY2009.
In 2009, the Senate-passed version of the National Defense Authorization Act (S. 1390) included a provision (Sec 217) that would have stated a sense of Congress that the Secretary of Defense should increase DOD S&T by a percent that is at least equal to inflation.
Congress embraced the DSB's three percent recommendation and underlying rationale in the conference report accompanying the National Defense Authorization Act for Fiscal Year 2003:
The conferees commend the Department of Defense commitment to a goal of three percent of the budget request for the defense science and technology program and progress toward this goal. The conferees also note the finding in the Defense Science Board report that successful high technology industries invest about 3.5 percent of sales in research (equivalent to the DOD S&T program) and the recommendation that S&T funding should be increased to ensure the continued long-term technical superiority of U.S. military forces in the 21st Century. The conferees believe that the Department must continue to provide the necessary investments in research and technologies that ensure a strong, stable, and robust science and technology program for our Armed Forces.13
Other organizations have proposed using the same metric, but with a 3% as the level for S&T funding as a share of total DOD funding. A 2001 report based on the Quadrennial Defense Review (QDR), a legislatively mandated review by DOD of its strategies and priorities, called for "a significant increase in funding for S&T programs to a level of three percent of DOD spending per year."14 In 2004, the Council on Competitiveness, a leadership organization of corporate chief executive officers, university presidents, labor leaders, and national laboratory directors, reiterated the 3% recommendation of the QDR.15
Related Data and Discussion
Following a period of strong growth in the early 2000s, S&T funding peaked in current dollars at $13.3 billion in FY2006, then declined to $11.0 billion in FY2013 before rebounding somewhat to $12.0 billion in FY2015. (See Figure 9.) In constant dollars, S&T funding peaked in FY2005 before falling 27.0% through FY2013; between FY2013 and FY2015, S&T funding recovered somewhat, growing by 6.6%. Viewed as a share of DOD total obligational authority (TOA), S&T declined from about 3.0% in the late 1990s to about 1.7% in 2011, rebounding to about 2.1% in FY2015. (See Figure 10.) While the growth in the absolute amount of S&T funding that was sought in P.L. 105-261 (red line, Figure 9) was largely achieved, S&T's share of total DOD TOA declined due to even faster growth in DOD TOA (green line, Figure 9) during this period.
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Figure 9. DOD Science and Technology (6.1-6.3) Funding in millions of current dollars |
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Source: CRS analysis of data from Department of Defense, Research, Development, Test, and Evaluation Programs (R-1) for FY1998-2017. Note: For purposes of this chart, CRS used the GDP (Chained) Price Index from Table 10.1 of the Historical Tables in the President's Budget for Fiscal Year 2017, to determine an "inflation" level as this is the index used by the Office of Management and Budget to convert federal research and development outlays from current dollars to constant dollars. https://www.whitehouse.gov/sites/default/files/omb/budget/fy2017/assets/hist10z1.xls. |
Approach: DOD Science and Technology as a Share of DOD RDT&E
The DSB's second proposed framework, also based on industrial practice, was to use the metric of S&T as a share of DOD RDT&E:
Another approach to this question is to note that the ratio of research funding to total R&D funding in high-technology industries, such as pharmaceuticals, is about 24%. When this percentage ratio is applied to the FY98 R&D funding of about $36 billion, the result is about $8.6 billion, well above the actual S&T funding.16
In 2015, a coalition of industry, research universities, and associations, the Coalition for National Security Research, asserted that DOD S&T funding should be 20% of DOD RDT&E.17
Related Data
Figure 11 illustrates S&T's share of DOD RDT&E for FY1996-FY2015. At the time of the DSB report, S&T's share of DOD RDT&E was approximately 20%. After rising to 21.5% in FY2000, the share fell to 15.2% in FY2011, recovering to 18.8% in FY2015.
What Is the Appropriate Funding Level for DOD Basic Research?
Within the S&T program, basic research (6.1) is singled out for additional attention, due in part to its perceived value in advancing breakthrough technologies and in part to the substantial role it plays in supporting university-based research in certain physical sciences and engineering disciplines. Basic research funding is seen by some to be particularly vulnerable to budget cuts or reallocation to other priorities because of the generally long time it takes for basic research investments to result in tangible products and other outcomes (i.e., reductions in funding can be made with minimal short term consequences) and to the uncertainty of the benefits that will be derived from the results of basic research.
Approach: DOD Basic Research as a Share of DOD S&T
In 2004, the Council on Competitiveness asserted that DOD basic research should be at least 20% of DOD S&T.18 In 2015, the Coalition for National Security Research also recommended 20% of DOD S&T.19
Related Data
DOD basic research funding grew steadily from FY1998 through FY2015, more than doubling in current dollars. (See Figure 12.) As a share of S&T, basic research declined from 14.6% in FY1996 to 11.0% in FY2006, then began a steady rise to 18.4% in FY2015, its highest level in 20 years. (See Figure 13.)
What Is the Appropriate Balance Between Investments in Incremental RDT&E and Investments Directed Toward Revolutionary Technological Advancements?
Another key issue of concern to Congress is the balance in the RDT&E portfolio between funding focused on incremental or evolutionary improvements and funding focused on exploratory research that might lead to revolutionary technologies. The latter is frequently referred to as "high risk, high reward" research as it involves R&D activities that have low or unknown likelihood of success, but that, if successful, may yield revolutionary technological advances.20
Approach: Revolutionary Research as a Share of DOD S&T
The DSB's 1998 report noted industry's practice of
allocating about 1/3 of the total available research funding to exploratory or potentially revolutionary projects. The other 2/3 of the effort is typically focused on identified product needs in the form of evolutionary improvements in current product lines.21
In accordance with this industrial practice, DSB recommended that DOD
[ensure] that approximately 1/3 of the S&T program elements are devoted to revolutionary technology initiatives. DARPA should play a major role in executing these efforts along with the Services.22
Applied to the FY2015 S&T budget, this formula would allocate approximately $4.0 billion to revolutionary technology initiatives.
In 2004, S.Rept. 108-46 accompanying the National Defense Authorization Act for Fiscal Year 2004 (S. 1050) expressed the committee's concerns that the DOD "investment in basic research has remained stagnant and is too focused on near-term demands."
Related Data and Discussion
DOD does not report funding for revolutionary research. The Defense Advanced Projects Research Agency (DARPA) has been the lead DOD agency focused on revolutionary R&D since its establishment in 1958 following the Soviet launch of the first man-made satellite, Sputnik, in 1957. For this report, CRS examined DARPA funding as a surrogate measure of at least a portion of DOD's investments in revolutionary research.23
DARPA describes its mission as making "pivotal investments in breakthrough technologies for national security."24 DARPA funding has remained generally steady since FY2003, ranging between $2.5 billion and $3.0 billion. (See Figure 14.) Similarly, DARPA's funding as a share of defense S&T has remained generally steady since FY1999, between 22% and 25%. In FY1996, DARPA funding accounted for about 30% of S&T funding, before sliding to 22% in FY2000 (See Figure 15.)
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obligational authority, in billions of current dollars |
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Source: CRS analysis of data from Department of Defense, Research, Development, Test, and Evaluation Programs (R-1) for FY1998-2017. |
Approach: High Risk, High Payoff Research as a Share of RDT&E
In its 2007 Rising Above the Gathering Storm report, the National Academies recommended that
At least 8% of the budgets of federal research agencies should be set aside for discretionary funding managed by technical program managers in those agencies to catalyze high-risk, high-payoff research.25
Related Data and Discussion
Using DARPA once more as a surrogate measure of a portion of DOD's high risk, high payoff research, Figure 16 shows DARPA funding as a percent of DOD RDT&E. Between FY1996 and FY2008, DARPA's share of RDT&E fell by nearly half, from 6.4% in FY1996 to 3.4% in FY2008. DARPA's share has risen since FY2008, to 4.5% in FY2015. Based solely on DARPA funding, DOD funding for high risk, high payoff research is well below the 8% recommended by the National Academies. It is unclear how investments in high risk, high payoff research from other DOD accounts might affect this picture.
Concluding Observations
DOD RDT&E investments are highly complex and can be parsed in many ways. Some of these are highlighted in this report. Other ways of parsing RDT&E funding—such as allocation by performing organization (e.g., industry; universities; government-owned, government-operated facilities; federally-funded research and development centers (FFRDCs)), size of industrial performers, intramural and extramural performance—may also be important for the effective allocation of DOD RDT&E resources. Similarly, many DOD RDT&E stakeholders have asserted the importance of stability in funding streams. Among the many other factors that may affect the effectiveness of the performance of RDT&E are: organizational structures and relationships; management; workforce recruitment, training and retention; and policies related to cooperative research and technology transfer.
As Congress undertakes defense annual authorization and appropriations, it may wish to consider the issues raised in this report related to the magnitude and composition of funding for DOD RDT&E, as well as the other issues such as those identified above.