Science policy of the United States

Last updated

Federal funding of basic and applied research by year. The spike in 2009 is due to the American Reinvestment and Recovery Act. Figures for 2014 are requested levels. U.S. research funding.png
Federal funding of basic and applied research by year. The spike in 2009 is due to the American Reinvestment and Recovery Act. Figures for 2014 are requested levels.

The science policy of the United States is the responsibility of many organizations throughout the federal government. Much of the large-scale policy is made through the legislative budget process of enacting the yearly federal budget, although there are other legislative issues that directly involve science, such as energy policy, climate change, and stem cell research. Further decisions are made by the various federal agencies which spend the funds allocated by Congress, either on in-house research or by granting funds to outside organizations and researchers.

Contents

Professor N. Rosenberg, one of the pioneers of technological innovation research, pointed out that industrial research laboratories (R&D), if not the most important institutional innovations in institutional innovation in the 20th century, are also one of the most important institutional innovations. Although not the first invention of the United States, this system has a wider spread and stronger influence in the US economy than in other countries.

The United States devoted 2.8% of GDP to research and development (R&D) in 2012. The private sector contributed two-thirds of the total. The Obama administration had fixed a target of a 3% ratio by the end of his presidency in 2016. [2]

Legislating science policy

In the Executive Office of the President, the main body advising the president on science policy is the Office of Science and Technology Policy. Other advisory bodies exist within the Executive Office of the President, including the President's Council of Advisors on Science and Technology and the National Science and Technology Council.

In the United States Congress, a number of congressional committees have jurisdiction over legislation on science policy, most notably the House Committee on Science and Technology and the Senate Committee on Commerce, Science and Transportation, and their subcommittees. These committees oversee the various federal research agencies that are involved in receiving funding for scientific research. Oversight of some agencies may fall under multiple committees, for example the Environmental Protection Agency. [3]

The number of Congressional members and other politicians with backgrounds in science, engineering, and technology has grown in recent years, with the 116th Congress setting a record with 47 of 535 members with STEM backgrounds. [4] Therefore, most U.S. politicians refer to various Congressional support agencies for analysis on science related issues, which do not solely focus on science, but provide insight for Congress to make decisions dealing with scientific issues. These agencies are nonpartisan and provide objective reports on topics requested by members of congress. They are the Congressional Research Service, Government Accountability Office, and Congressional Budget Office. [4] In the past, the Office of Technology Assessment provided Congressional members and committees with objective analysis of scientific and technical issues, but this office was abolished as a result of the Republican Revolution of 1994. [5]

Further advice is provided by extragovernmental organizations such as The National Academies, which was created and mostly funded by the federal government, [6] and the RAND Corporation, as well as other non-profit organizations such as the American Association for the Advancement of Science and the American Chemical Society among others.

Research and development in the federal budget

Since the 1960s, private businesses in the U.S. have provided an increasing share of funding for research and development, as direct federal funding waned. 1953- Funding for research and development - US.svg
Since the 1960s, private businesses in the U.S. have provided an increasing share of funding for research and development, as direct federal funding waned.
The research and development budget by department in the Obama administration's federal budget proposal for fiscal year 2015: [8] [9]
Circle frame.svgOther: $0.698B

Only a small percentage of the overall federal budget is allocated to R&D. The FY2015 budget request includes $135.110B in R&D spending [8] out of a total budget of $3969.069B, representing 3.4% of the budget. [10] Research and development funding in the federal budget is not centrally enacted, but is spread across many appropriations bills which are enacted in the annual United States budget process. Of the twelve annual appropriations bills, the most important for R&D are those for Defense; Labor, Health and Human Services, and Education (which includes NIH); Commerce, Justice, and Science (which includes NSF, NASA, NIST, and NOAA); and Energy and Water Development. Other appropriations bills include smaller amounts of R&D funding.

There are a number of federal agencies across the government which carry out science policy. Some of these primarily perform their own research "in-house", while others grant funds to external organizations or individual researchers. In addition, the federally funded research and development centers (FFRDC), which include most of the U.S. National Laboratories, are funded by the government but operated by universities, non-profit organizations, or for-profit consortia.

The FY2015 presidential budget request defines R&D as "the collection of efforts directed toward gaining greater knowledge or understanding and applying knowledge toward the production of useful materials, devices, and methods." R&D is divided into five subcategories. Basic research is directed toward understanding of the fundamental aspects of observable phenomena. It may be directed towards broad but not specific applications. Applied research is directed towards gaining knowledge to meet a recognized and specific need. Development is the application of knowledge or understanding for the production of useful materials, devices, and methods, including production of prototypes. R&D equipment includes acquisition or production of movable equipment, such as spectrometers, research satellites, or detectors. R&D facilities include the construction or major repairs to physical facilities including land, buildings, and fixed capital equipment such fixed facilities as reactors, wind tunnels, and particle accelerators. [11]

The following chart shows a breakdown for the five agencies with the largest R&D budgets in the Obama administration's FY2015 proposal: [11]

10
20
30
40
50
60
70
HHS
NSF
Other
  •   Basic research
  •   Applied research
  •   Development
  •   Equipment and facilities

Defense research and development

Defense R&D has the goal of "maintaining strategic technological advantages over potential foreign adversaries." [12] As of 2009, just over half of the R&D budget was allocated to defense spending. [13] Most Defense R&D falls under the Research, Development, Test, and Evaluation (RTD&E) budget, although some R&D funding is outside this budget, such as the Defense Health Program and the chemical weapons destruction program. The Department of Defense divides development further, based on the character of the work performed, giving each category a funding code in its budget justification which is used by Congressional appropriation reports: [14] 6.1 is Basic Research, 6.2 is Applied Research, 6.3 is Advanced Technology Development, 6.4 is Advanced Component Development and Prototypes, 6.5 is System Development and Demonstration, 6.6 is Research, Development, Test and Evaluation (RDT&E) Management and Support, and 6.7 is Operational Systems Development. [12]

Most of the Defense R&D budget is for weapon systems development, with nearly all activity in categories 6.4 and higher carried out by private defense contractors. About one sixth of it is allocated to the Science and Technology (S&T) program, which includes all of 6.1, 6.2, 6.3, and medical research. As of 2013, research funding (6.1 and 6.2) was disbursed 40% to industry, 33% to DoD laboratories, and 21% to academia. [15] The Department of Defense was the third-largest supporter of R&D in academia in FY2012, with only NIH and NSF having larger investments, with DoD the largest federal funder for engineering research and a close second for computer science. [12]

The Defense Research Enterprise (DRE) consists of S&T programs within each of the three military departments within DoD. The budget is prepared by each department's acquisition secretary, namely the Assistant Secretary of the Air Force (Acquisition), Assistant Secretary of the Navy (Research, Development and Acquisition), and Assistant Secretary of the Army for Acquisition, Logistics, and Technology. Air Force and Space Force S&T is executed by the Air Force Research Laboratory (AFRL). Navy and Marine Corps S&T is executed by the Office of Naval Research (ONR), with medical research performed by the Navy Bureau of Medicine and Surgery. For the Army, 72% of the S&T budget is in Army Materiel Command's Research, Development and Engineering Command (RDECOM), with the remainder in Army Medical Research and Materiel Command (USAMRMC), Army Corps of Engineers (USACE), Army Space and Missile Defense Command (USASMDC) and the Deputy Chief of Staff (G1-Personnel) to the Assistant Secretary of the Army (Manpower and Reserve Affairs). Each agency supports both in-house intramural research as well as grants to outside academic or industrial organizations. [16]

The following chart shows a breakdown for the agencies with the most R&D funding within the Department of Defense in the Obama administration's FY2015 proposal. The "Other" category includes $3.7B for classified programs such as NSA, DIA, and NGA, whose top-level budget numbers are not released, as well as the uncategorized R&D funds not included in the RDT&E budget. [9]

5
10
15
20
25
30
MDA
OSD
  •   Basic Research (6.1)
  •   Applied Research (6.2)
  •   Advanced Technology Development (6.3)
  •   Advanced Component Development and Prototypes (6.4)
  •   System Development and Demonstration (6.5)
  •   Management and Support (6.6)
  •   Operational Systems Development (6.7)
  •   Uncategorized


The following information is based on a 2022 Congressional Research Service report. Approximately 97% ($119.3 billion) of DoD’s RDT&E funding for FY 2022 ($122.9 billion) is appropriated in Title IV (Research, Development, Test, and Evaluation), which includes appropriations for the Army, Navy, Air Force, Space Force (under the Air Force account), a Defense-wide RDT&E account, and the Director of Operational Test and Evaluation. The Defense-wide account includes the MDA, DARPA, OSD and 17 other DOD organizations. [17] Below is a breakdown for FY 2022 DoD RDT&E by funding code:

6.1 Basic Research 2.3%; 6.2 Applied Research 5.8%; 6.3 Advanced Technology Development 7.7%; 6.4 Advanced Component Development and Prototypes 27.5%; 6.5 System Development and Demonstration 12.6%; 6.6 RDT&E Management Support 7.0%; 6.7 Operational System Development 36.4%; and 6.8 Software and Digital Technology Pilot Project 0.6%. [18]

Prize competitions

In 2010, Congress passed the America COMPETES Reauthorization Act of 2010 (P.L. 111-358; 15 U.S.C. §3719). The law provides the federal agencies with the broad authority to carry out prize competitions “to stimulate innovation that has the potential to advance the mission of the respective agency.” 15 U.S.C. §3718(c)(4). The term “federal agency” does "not include any agency of the legislative branch of the Federal Government." 15 U.S.C. §3719(a)(3).

In 2017, Congress passed the American Innovation and Competitiveness Act of 2017 (P.L. 114-329). Among the amendments to the America COMPETES Reauthorization Act of 2010, it authorized federal agencies to use "Federal appropriated funds and funds provided by private sector for-profit and nonprofit entities" as well as from state and local governments." 15 U.S.C. §3719(m)(1). [19] P.L. 114-329 also provided federal agencies with the “explicit authority to use crowdsourcing and citizen science … to advance federal science agency missions and stimulate and facilitate broader public participation in the innovation process” [20]

Challenge.gov contains a listing of active federal challenge and prize competitions. The website was launched in 2010 and is managed by the U.S. General Services Administration. [21]

PD-icon.svg This article incorporates public domain material from Federal Prize Competitions. Congressional Research Service.

Intellectual property policy

Inventions "conceived or actually reduced to practice" in the performance of government-funded research may be subject to the Bayh–Dole Act. Congress set forth the U.S. patent policy in the Bayh-Dole Act in 1980 (codified in 35 U.S. Code § 200 as implemented by 37 CFR part 401). The policy and objective, as stated in the Bayh-Dole Act, is "to use the patent system to promote the utilization of inventions arising from federally supported research or development," [22] among others. This policy and objective is incorporated verbatim in the Federal Acquisition Regulation. [23] Contractors may elect to retain title to any subject invention made in the performance of U.S. government-funded research. [24] If it happens, U.S. Government will have a world-wide, nonexclusive, nontransferable, irrevocable, paid-up license to practice the invention, or have it practiced for or on behalf of the United States. [25]

The Federal Research Public Access Act (111th congress S.1373, introduced 25 June 2009 but still in a Senate committee) would require "free online public access to such final peer-reviewed manuscripts or published versions as soon as practicable, but not later than 6 months after publication in peer-reviewed journals". [26] [27] [28] The bill was later succeeded by the Fair Access to Science and Technology Research Act, which was introduced twice before it was introduced again in 115th Congress. [29]

The Leahy-Smith America Invents Act of 2011 moved the United States from a 'first to invent' system to a 'first to file' model, the most significant patent reform since 1952. This act will limit or eliminate lengthy legal and bureaucratic challenges that used to accompany contested filings. However, the pressure to file early may limit the inventor's ability to exploit the period of exclusivity fully. It may also disadvantage very small entities, for which the legal costs of preparing an application are the main barrier to filing. This legislation has also fostered the rise of what are familiarly known as patent trolls. [2]

Science in political discourse

Most of the leading political issues in the United States have a scientific component. For example, healthcare, renewable energy, climate change, and national security. Amongst U.S. public opinion, 60% of Americans believe scientific experts should play an active role in policy debates over relevant issues, although this view is divided amongst Democrats and Republicans. [30] Broadly, a majority of Americans believe that scientists should be involved in shaping policies related to medical and health, energy, education, environmental, infrastructure, defense, and agriculture policies. [31]

Science policy in the states

State government initiatives

There are also a number of state and local agencies which deal with state-specific science policy and provide additional funding, such as the California Institute for Regenerative Medicine and the Cancer Prevention and Research Institute of Texas.

Overall research spending in the states

Contribution of each state to US research in 2010, in terms of funding (public and private sectors) and science and engineering occupations. Source: Figure 5.6 from the UNESCO Science Report: towards 2030, based on data from National Science Foundation Science and engineering in the USA by state, 2010.svg
Contribution of each state to US research in 2010, in terms of funding (public and private sectors) and science and engineering occupations. Source: Figure 5.6 from the UNESCO Science Report: towards 2030, based on data from National Science Foundation

The level of research spending varies considerably from one state to another. Six states (New Mexico, Maryland, Massachusetts, Washington, California and Michigan) each devoted 3.9% or more of their GDP to R&D in 2010, together contributing 42% of national research expenditure. In 2010, more than one-quarter of R&D was concentrated in California (28.1%), ahead of Massachusetts (5.7%), New Jersey (5.6%), Washington State (5.5%), Michigan (5.4%), Texas (5.2%), Illinois (4.8%), New York (3.6%) and Pennsylvania (3.5%). Seven states (Arkansas, Nevada, Oklahoma, Louisiana, South Dakota and Wyoming) devoted less than 0.8% of GDP to R&D. [2]

California is home to Silicon Valley, the name given to the area hosting the leading corporations and start-ups in information technology. This state also hosts dynamic biotechnology clusters in the San Francisco Bay Area, Los Angeles and San Diego. The main biotechnology clusters outside California are the cities of Boston/Cambridge, Massachusetts, Maryland, suburban Washington DC, New York, Seattle, Philadelphia and Chicago. California supplies 13.7% of all jobs in science and engineering across the country, more than any other state. Some 5.7% of Californians are employed in these fields. This high share reflects a potent combination of academic excellence and a strong business focus on R&D: the prestigious Stanford University and University of California rub shoulders with Silicon Valley, for instance. In much the same way, Route 128 around Boston in the State of Massachusetts is not only home to numerous high-tech firms and corporations but also hosts the renowned Harvard University and Massachusetts Institute of Technology. [2]

New Mexico's high research intensity can be explained by the fact that it hosts both Los Alamos National Laboratory and the primary campus of Sandia National Laboratories, the two major United States Department of Energy research and development national laboratories. Maryland's position may reflect the concentration of federally funded research institutions there. Washington State has a high concentration of high-tech firms like Microsoft, Amazon and Boeing and the engineering functions of most automobile manufacturers are located in the State of Michigan. [2]

Microsoft, Intel and Google figured among the world's top 10 corporations for research spending in 2014. They shared this distinction with Johnson & Johnson, a multinational based in New Jersey which makes pharmaceutical and healthcare products, as well as medical devices, and were closely followed by automobile giant General Motors (11th), based in Detroit, and pharmaceutical companies Merck (12th) and Pfizer (15th). Merck is headquartered in New Jersey and Pfizer in New York. Intel's investment in R&D has more than doubled in the past 10 years, whereas Pfizer's investment has dropped since 2012. Several pharmaceutical companies figure among the top 15 corporations for research spending. The US carries out almost half (46%) of all research in the life sciences, making it the world leader. In 2013, US pharmaceutical companies spent US$40 billion on R&D inside the US and nearly another US$11 billion on R&D abroad. Some 7% of the companies on Thomson Reuters' Top 100 Global Innovators list for 2014 are active in biomedical research, equal to the number of businesses in consumer products and telecommunications. [2]

History

The first President's Science and Technology Advisor was James R. Killian, appointed in 1958 by President Dwight D. Eisenhower after Sputnik Shock created the urgency for the government to support science and education. President Eisenhower realized then that if Americans were going to continue to be the world leader in scientific, technological and military advances, the government would need to provide support. After World War II, the US government began to formally provide support for scientific research and to establish the general structure by which science is conducted in the US. [32] The foundation for modern American science policy was laid way out in Vannevar Bush's Science – the Endless Frontier, submitted to President Truman in 1945. Vannevar Bush was President Roosevelt's science advisor and became one of the most influential science advisors as, in his essay, he pioneered how we decide on science policy today. [33] He made recommendations to improve the following three areas: national security, health, and the economy—the same three focuses we have today.

Creation of the NSF

The creation of the National Science Foundation, although implemented in 1950, was a controversial issue that started as early as 1942, between engineer and science administrator Vannevar Bush and Senator Harley M. Kilgore (D-WV), who was interested in the organization of military research. Senator Kilgore presented a series of bills between 1942–1945 to Congress, the one that most resembles the establishment of the NSF, by name, was in 1944, outlining an independent agency whose main focus was to promote peacetime basic and applied research as well as scientific training and education. Some specifics outlined were that the director would be appointed and the board would be composed of scientists, technical experts and members of the public. The government would take ownership of intellectual property developed with federal funding and funding would be distributed based on geographical location, not merit. Although both Bush and Kilgore were in favor of government support of science, they disagreed philosophically on the details of how that support would be carried out. In particular, Bush sided with the board being composed of just scientists with no public insight. When Congress signed the legislation that created the NSF, many of Bush's ideals were removed. It illustrates that these questions about patent rights, social science expectations, the distribution of federal funding (geographical or merit), and who (scientists or policymakers) get to be the administrators are interesting questions that science policy grapples with.

See also

Related Research Articles

<span class="mw-page-title-main">National Science Foundation</span> United States government agency

The U.S. National Science Foundation (NSF) is an independent agency of the United States federal government that supports fundamental research and education in all the non-medical fields of science and engineering. Its medical counterpart is the National Institutes of Health. With an annual budget of about $9.9 billion, the NSF funds approximately 25% of all federally supported basic research conducted by the United States' colleges and universities. In some fields, such as mathematics, computer science, economics, and the social sciences, the NSF is the major source of federal backing.

The Small Business Innovation Research program is a U.S. government funding program, coordinated by the Small Business Administration, intended to help certain small businesses conduct research and development (R&D). Funding takes the form of contracts or grants. The recipient projects must have the potential for commercialization and must meet specific U.S. government R&D needs.

<span class="mw-page-title-main">Neal Francis Lane</span>

Cornelius Francis "Neal" Lane, is an American physicist and senior fellow in science and technology policy at Rice University's Baker Institute for Public Policy and Malcolm Gillis University Professor Emeritus of Physics and Astronomy Emeritus at Rice University in Houston, Texas.

<span class="mw-page-title-main">National Science and Technology Council</span> The NSTC establishes national goals for science and technology.

The National Science and Technology Council (NSTC) is a council in the Executive Branch of the United States. It is designed to coordinate science and technology policy across the branches of federal government.

<span class="mw-page-title-main">Defense Technical Information Center</span> US Department of Defense repository for research and engineering information

The Defense Technical Information Center is the repository for research and engineering information for the United States Department of Defense (DoD). DTIC's services are available to DoD personnel, federal government personnel, federal contractors and selected academic institutions. The general public can access unclassified information through its public website.

The United States Department of Defense High Performance Computing Modernization Program (HPCMP) was initiated in 1992 in response to Congressional direction to modernize the Department of Defense (DoD) laboratories’ high performance computing capabilities. The HPCMP provides supercomputers, a national research network, high-end software tools, a secure environment, and computational science experts that together enable the Defense laboratories and test centers to conduct research, development, test and technology evaluation activities.

The policies of the United States of America comprise all actions taken by its federal government. The executive branch is the primary entity through which policies are enacted, however the policies are derived from a collection of laws, executive decisions, and legal precedents.

The America COMPETES Act was authored by Bart Gordon and signed into law on August 9, 2007, by President George W. Bush. The act aimed to invest in innovation through research and development and improve the competitiveness of the United States.

Federally funded research and development centers (FFRDCs) are public-private partnerships that conduct research and development for the United States Government. Under Federal Acquisition Regulation § 35.017, FFRDCs are operated by universities and corporations to fulfill certain long-term needs of the government that "...cannot be met as effectively by existing in-house or contractor resources." While similar in many ways to University Affiliated Research Centers, FFRDCs are prohibited from competing for work. There are currently 42 FFRDCs, each sponsored by one or more U.S. government departments or agencies.

<span class="mw-page-title-main">John J. Young Jr.</span>

John Jacob Young Jr. was United States Assistant Secretary of the Navy from 2001 to 2005 and Under Secretary of Defense for Acquisition, Technology and Logistics from 2007 to 2009. He is the founder and principal of JY Strategies, LLC.

The 2011 United States federal budget was the United States federal budget to fund government operations for the fiscal year 2011. The budget was the subject of a spending request by President Barack Obama. The actual appropriations for Fiscal Year 2011 had to be authorized by the full Congress before it could take effect, according to the U.S. budget process.

<span class="mw-page-title-main">Networking and Information Technology Research and Development</span> NiTRD

The Networking and Information Technology Research and Development (NITRD) program consists of a group of U.S. federal agencies to research and develop information technology (IT) capabilities to empower Federal missions; support U.S. science, engineering, and technology leadership; and bolster U.S. economic competitiveness.

<span class="mw-page-title-main">Consolidated and Further Continuing Appropriations Act, 2013</span> Act of United States Congress

Consolidated and Further Continuing Appropriations Act, 2013 was a bill passed by the United States House of Representatives of the 113th United States Congress. The bill prevented a government shutdown and funded the federal government through September 30, 2013 as it replaced a continuing resolution which expired on March 27, 2013.

<span class="mw-page-title-main">Federal Information Technology Acquisition Reform Act</span>

The Federal Information Technology Acquisition Reform Act made changes to the ways the U.S. federal government buys and manages computer technology. It became law as a part of the National Defense Authorization Act for Fiscal Year 2015 (Title VIII, Subtitle D, H.R. 3979.

Every year, the United States Congress is responsible for writing, passing, reconciling, and submitting to the President of the United States a series of appropriations bills that appropriate money to specific federal government departments, agencies, and programs for their use to operate in the subsequent fiscal year. The money provides funding for operations, personnel, equipment, and activities. In 2014, Congress was responsible for passing the appropriations bills that would fund the federal government in fiscal year 2015, which runs from October 1, 2014, to September 30, 2015.

<span class="mw-page-title-main">Energy and Water Development and Related Agencies Appropriations Act, 2015</span>

The Energy and Water Development and Related Agencies Appropriations Act, 2015 is a bill that would make appropriations for energy and water development and related agencies for FY2015. The bill would appropriate $34 billion, which is only $50 million less than these agencies currently receive. The appropriations for the United States Department of Energy and the United States Army Corps of Engineers are made by this bill.

<span class="mw-page-title-main">Continuing Appropriations Resolution, 2015</span>

The Continuing Appropriations Resolution, 2015 is a continuing resolution and United States public law that funded the federal government of the United States through December 11, 2014 by appropriating $1 trillion.

The Science and Technology Policy Institute is a federally funded research and development center located in Washington, D.C. STPI provides objective research and analysis on science and technology policy issues in support of the White House Office of Science and Technology Policy (OSTP), as well as for its sponsor, the National Science Foundation, and other science-performing federal agencies. STPI is administered by the non-profit Institute for Defense Analyses, located in Alexandria, Virginia. As of May 2020, Kristen Kulinowski is the current director of STPI.

<span class="mw-page-title-main">National Center for Science and Engineering Statistics</span> Federal statistical agency of the United States

The National Center for Science and Engineering Statistics (NCSES) is one of the thirteen principal statistical agencies of the United States and is tasked with providing objective data on the status of the science and engineering enterprise in the U.S. and other countries. NCSES sponsors or co-sponsors data collection on 15 surveys and produces two key publications: Science and Engineering Indicators, and Women, Minorities, and Persons with Disabilities in Science and Engineering. Though policy-neutral, the data and reports produced by NCSES are used by policymakers when making policy decisions regarding STEM education and research funding in the U.S.

References

Definition of Free Cultural Works logo notext.svg  This article incorporates text from a free content work. Licensed under CC-BY-SA IGO 3.0. Text taken from UNESCO Science Report: towards 2030 , UNESCO.

  1. "The 2014 Budget: A World-Leading Commitment to Science and Research" (PDF). Office of Science and Technology Policy. Retrieved 19 March 2014.
  2. 1 2 3 4 5 6 Stewart, Shannon; Springs, Stacy (2015). United States of America. In: UNESCO Science Report: towards 2030. Paris: UNESCO. ISBN   978-92-3-100129-1.
  3. White, Kasey; Carney, Joanne (2011). Working with Congress: A Scientist's Guide to Policy (PDF). Washington, D.C.: AAAS. pp. 20–23. ISBN   978-0871687401.
  4. 1 2 White, Kasey Shewey. (2011). Working with congress : a scientist's guide to policy. [Place of publication not identified]: Aaas. ISBN   978-0871687401. OCLC   729687228.
  5. Public Law 104–53, Title I, Sections 113–114, 19 November 1995 https://uscode.house.gov/statviewer.htm?volume=109&page=526
  6. "Frequently asked questions". The National Academies. Retrieved 29 April 2011.
  7. Anderson, G.; Moris, F. (2023). "Federally Funded R&D Declines as a Share of GDP and Total R&D". National Science Foundation, National Center for Science and Engineering Statistics. Archived from the original on 3 October 2023. NSF 23-339
  8. 1 2 "R&D in the 2015 Budget (revised)" (PDF). U.S. Office of Science and Technology Policy. May 2014. Retrieved 27 July 2014.
  9. 1 2 "FY2015 Department of Defense Budget: RTD&E Programs (R-1)" (PDF). Office of the Under Secretary of Defense (Comptroller). June 2014. p. II. Retrieved 27 July 2014.
  10. "Table 28-1: Policy Budget Authority and Outlay by Function, Category, and Program" (PDF). Analytical Perspectives, Budget of the United States Government, Fiscal Year 2015. United States Office of Management and Budget. Retrieved 22 May 2014.
  11. 1 2 "Special Topics" (PDF). Analytical Perspectives, Budget of the United States Government, Fiscal Year 2015. U.S. Office of Management and Budget. pp. 312–315. Retrieved 25 July 2014.
  12. 1 2 3 Doom, Travis R. "Department of Defense" (PDF). American Association for the Advancement of Science. Retrieved 1 August 2014.
  13. Koizumi, Kei. "Federal R&D in the FY 2009 Budget: An Introduction". AAAS. Retrieved 20 August 2010.
  14. "Defense Primer: RDT&E". Congressional Research Service. 10 November 2022. Retrieved 21 May 2023.
  15. "Federal R&D Funding: Quick Agency Profiles". Proposal Exponent. Retrieved 28 July 2014.
  16. National Research Council (2014). Strategic Engagement in Global S&T: Opportunities for Defense Research. Washington, DC: The National Academies Press. pp. 28–35. doi:10.17226/18816. ISBN   978-0-309-30622-5 . Retrieved 1 August 2014.
  17. "Defense Primer: RDT&E". Congressional Research Service. 10 November 2022. Retrieved 21 May 2023.
  18. "Defense Primer: RDT&E". Congressional Research Service. 10 November 2022. Retrieved 21 May 2023.
  19. "Federal Prize Competitions" (PDF). Congressional Research Service. 6 April 2020. Retrieved 9 June 2023.PD-icon.svg This article incorporates text from this source, which is in the public domain .
  20. "15 U.S. Code § 3724 - Crowdsourcing and citizen science". LII / Legal Information Institute. Retrieved 9 June 2023.
  21. "About | Challenge.Gov". www.challenge.gov. Retrieved 9 June 2023.
  22. "35 U.S. Code § 200 - Policy and objective". LII / Legal Information Institute. Retrieved 10 June 2023.
  23. "FAR Subpart 27.302(a)". acquisition.gov. Retrieved 13 June 2023.
  24. "FAR Subpart 27.302(b)". acquisition.gov. Retrieved 13 June 2023.
  25. "FAR Subpart 27.302(c)". acquisition.gov. Retrieved 13 June 2023.
  26. Federal Research Public Access Act
  27. "Library of Congress, S.1273". Archived from the original on 8 April 2015. Retrieved 27 November 2010.
  28. US Scientific Grant Awards Database Archived 6 November 2010 at the Wayback Machine
  29. "S.1701 - Fair Access to Science and Technology Research Act of 2017". congress.gov. Retrieved 10 June 2023.
  30. Pew Research Center (August 2019). "Trust and Mistrust in Americans' Views of Scientific Experts" (PDF).
  31. Research!America (March 2019). "America Speaks: Poll Data Summary, Volume 19" (PDF).
  32. Neal, Homer; Smith, Tobin; McCormick, Jennifer (2008). Beyond Sputnik. The University of Michigan Press.
  33. Ehlers, Vernon (16 January 1998). "The Future of U.S. Science Policy". Science. 279 (5349): 302a–302. Bibcode:1998Sci...279..302E. doi:10.1126/science.279.5349.302a. S2CID   154533319.