SPACE FORCE: The Militarisation of United States Space Policy from Eisenhower to Trump

SPACE FORCE: The Militarisation of United States Space Policy from Eisenhower to Trump

By Bradley Galka

On 18 June 2018, President Donald J. Trump announced his intention to create a new branch of the United States armed forces. This new branch, the US Space Force, would be charged with controlling the nation’s military activities in space. The fact that the US would be involved in military activities in space in the first place should not be taken for granted. The US’ first military space policy was based on the principle that space ought to remain a ‘sanctuary’ from the sort of martial competition that was taking place on earth’s surface. Despite these peaceful beginnings, nearly every successive president has established a military space policy more aggressive than the last. The proposed establishment of the Space Force as a new branch of the US military represents the apex of this decades-long trend toward increased militarisation of space.[1]

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President Eisenhower visiting the George C. Marshall Space Flight Centre in Huntsville, Alabama, 8 September 1960. (Source: NASA)

The US government’s first space policy was established during the presidency of Dwight Eisenhower. Eisenhower and the military saw the nation’s developing satellite program as a valuable tool in monitoring Soviet military concentrations and looked forward to developing the critical capacity of detecting hostile missile launches from space. The president’s views differed with military leaders in significant ways. While the military advocated the development of anti-satellite (ASAT) missile technology and other generally hostile technologies for use in space, Eisenhower was more interested in the scientific possibilities of the space program. Eisenhower established the National Aeronautics and Space Administration (NASA) on 29 July 1958, as a separate entity from the Department of Defense – one with a purely peaceful civilian mandate. Though he did green-light some early research into ASAT technology, the US never developed a functional ASAT capability during Eisenhower’s presidency.[2]

John F. Kennedy took the first steps toward a more militarised space policy by approving the full-scale development of the anti-satellite and anti-ballistic missile technologies first considered during Eisenhower’s tenure. Kennedy was concerned with the nuclear ‘missile gap’ that was said to be developing between the US and the Soviet Union and was alarmed by reports that the Soviets were seeking a capacity to place nuclear weapons in earth’s orbit. Ultimately, however, Kennedy chose not to increase tensions between the superpowers through military competition with the Soviets in space, but rather to seek a diplomatic agreement limiting or banning such hostile actions. Kennedy’s successor, Lyndon B. Johnson, brought about the successful culmination of these efforts with the signing of the United Nations’ Outer Space Treaty by the US and the Soviet Union in 1967. The terms of this treaty forbade the testing or positioning of nuclear weapons and other types of weapons of mass destruction in space, prohibited the construction of military installations or fortifications on the moon, and banned any military manoeuvres in earth’s orbit. The terms of the treaty stipulated that space would only be used for peaceful, scientific purposes.[3]

Richard Nixon’s presidency was not marked by significant changes in the US’ military space policy. Gerald Ford, however, set the US on a drastically new, and far more aggressive, course. During Ford’s presidency, a series of internal government review boards reported to the president that the US’ existing space policies were woefully insufficient to protect the nation’s important space assets from the threat of Soviet attack. Experts warned that deterrence was not enough. The US, they said, would need to develop not only substantial defences in space but would need to obtain potent offensive firepower as well. Ford acted on this advice by drafting a new military space policy. This policy declared that ‘the Soviets should not be allowed an exclusive sanctuary in space for critical military supporting satellites.’ The employment of non-nuclear anti-satellite technology, Ford declared, would enable the US to ‘selectively nullify certain militarily important Soviet space systems, should that become necessary.’ By the end of his presidency, Ford had put in place the US’ first outwardly aggressive military space policy, mandating that the nation obtain both offensive and defensive capabilities in space.[4]

Jimmy Carter followed in Ford’s footsteps by officially rescinding the US’ self-imposed prohibition on testing anti-satellite weaponry in space. In 1978 Carter promulgated a new space policy which affirmed the right of the US to ‘pursue activities in space in support of its right of self-defense.’ Regarding anti-satellite capability, Carter declared that the US would continue to seek a ‘verifiable ban’ on such technology but would continue its research and development ‘as a hedge against Soviet breakout.’ In other words, the Carter administration sought to obtain a ban on ASAT technology but was unwilling to let the US fall behind if the Soviets refused to cooperate or broke the terms of any prospective treaty.[5]

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Project Excalibur was a proposed x-ray laser based anti-missile technology. It used a nuclear warhead surrounded by a number of metal rods that acted to focus the output of the explosion into narrow beams that would be aimed at nuclear missiles and their warheads. (Source: Wikimedia)

When Ronald Reagan assumed the presidency in 1981 the US upped-the-ante yet again. One of the most notable products of Reagan’s whole presidency was his famous Strategic Defense Initiative (SDI), known popularly as the ‘Star Wars’ program. The nature of SDI changed significantly over time but was a program designed to give the US the capacity to intercept and destroy a massive Soviet missile barrage en-route to the US or its allies using space-based weapons platforms. Though regarded by most now and many in his own time as wildly unrealistic given the technology of the day, Reagan’s intention of stationing military weapons in space capable of defeating Soviet attacks on earth was far beyond anything the US had been willing to attempt before. This technological program was coupled with Reagan’s stated unwillingness to continue negotiating with the Soviet Union over any form of disarmament which he believed would interfere with American prerogatives or American interests.[6]

Following the breakup of the Soviet Union in 1991 the ambitious nature of Reagan’s SDI program was scaled back under George H.W. Bush from a massive global missile shield to a smaller, regional defensive program capable of interdicting missiles in smaller numbers but with higher accuracy, reflecting the new realities of a post-Cold War world. Both H.W. Bush and Bill Clinton maintained the US’ stated willingness to both attack and defend military assets in outer space, but the post-Cold War world saw a marked decrease in the perceived importance of military space readiness. Bill Clinton was notable for his administration’s desire to open up the US’ space technology for the benefit of civil and commercial interests around the world. GPS, the global positioning system which serves as the basis of modern satellite-directed navigation, was initially a military asset unavailable to the public until Clinton opened access to the program in the 1990s.[7]

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US Navy Ordnance handlers assemble Joint Direct Attack Munition (JDAM) bombs in the forward mess decks before putting them on elevators headed for aircraft on the flight deck aboard USS Constellation, c. 2003. JDAM’s are guidance kits that convert existing unguided bombs into precision-guided ‘smart’ munitions. The tail section contains an inertial navigational system and a global positioning system. JDAM improves the accuracy of unguided bombs in any weather condition. (Source: Wikimedia)

The advent of the Global War on Terror and the protracted conflicts in the Middle East has reinvigorated the government’s concern with space policy in recent years. George W. Bush took steps to limit the free access to GPS established by Bill Clinton claiming the nation’s enemies – whether conventional military, insurgent groups or terrorist organisations – could use GPS as a useful tool against US interests. Perhaps the most notable use of military satellite technology, however, has been the drone program. Satellite-enabled drone reconnaissance and bombing missions have been central to US military operations around the world since the 1990s and have only grown in importance. George W. Bush and Barack Obama each found space assets to be indispensable in the conduct of their military missions abroad and have each affirmed the importance of space in their iterations of national space policy.[8]

In his 2006 exposition of US space policy, George W. Bush declared:

In this new century, those who effectively utilize space will enjoy added prosperity and security and will hold a substantial advantage over those who do not. Freedom of action in space is as important to the United States as air power and sea power. In order to increase knowledge, discovery, economic prosperity, and to enhance the national security, the United States must have robust, effective, and efficient space capabilities.[9]

By declaring that space is just as crucial to the modern military as air power and sea power Bush seems to have prefigured the seminal development in US space policy that incumbent President Trump announced in 2018: the planned establishment of the US Space Force.

In the six decades between Eisenhower’s first military space policy and the space policy of Trump, the US has gone from a purely peaceful conception of space to a grudging acceptance of defensive militarisation to a modern policy in which an aggressive militarisation of space is regarded as essential to national defence. The elevation of space activities from auxiliary status to an independent branch of the armed forces not only solidifies the importance of space in the modern US military but represents the next logical step in a pattern of increasingly aggressive military space policy established since the earliest days of the US space program.

Bradley Galka obtained his Master of Arts degree in history from Kansas State University in 2017. He is currently pursuing a PhD at Kansas State. His research focuses on the relationship between politics and the military in the United States, particularly regarding fascism and the U.S. military during the inter-war period.

Header Image: The launch of the STS-74 mission aboard the space shuttle Atlantis from NASA’s Kennedy Space Center. (Source: NASA)

[1] Namrata Goswami, ‘The US Space Force and Its Implications,’ The Diplomat, 22 June 2018.

[2] Nelson Rockefeller, National Security Council, ‘US Scientific Satellite Program,’ NSC-5520, 20 May 1955; Dwight D. Eisenhower Presidential Library and Museum, Abilene, KS, S. DDE’s Papers as President, NSC Series, Box 9, 357th Meeting of the NSC, NAID#: 12093099, Everett Gleason, National Security Council, ‘US Objectives in Space Exploration and Science,’ March 1958; Eisenhower Presidential Library, DDE’s Papers as President, NSC Series, Box 9, 339th Meeting of the NSC, NAID#: 12093096, S. Everett Gleason, National Security Council, ‘Implications of Soviet Earth Satellite for US Security,’ 10 October 1957.

[3] George C. Marshall Institute, Presidential Decisions: NSC Documents from the Kennedy Administration National Security Council, ‘Certain Aspects of Missile and Space Programs,’ NSC-6108, 18 January 1961; George C. Marshall Institute, Presidential Decisions: NSC Documents from the Johnson Administration, Lyndon B. Johnson, ‘Cooperation with the USSR on Outer Space,’ NSAM-285, 3 March 1964; United Nations General Assembly, ‘Treaty on Principles Governing the Activities of States in the Exploration and Use of Outer Space, Including the Moon and Other Celestial Bodies, 27 January 27, 1967.

[4] George C. Marshall Institute, Presidential Decisions: NSC Documents from the Ford Administration, Brent Scowcroft, National Security Council, ‘Enhanced Survivability of Critical US Military and Intelligence Space Systems,’ National Security Decision Memorandum 333, 7 July 1976; George C. Marshall Institute,  Presidential Decisions: NSC Documents from the Ford Administration, Brent Scowcroft, National Security Council, ‘US Anti-Satellite Capabilities,’ National Security Decision Memorandum 345, 18 January 1977.

[5] George C. Marshall Institute, Presidential Decisions: NSC Documents from the Carter Administration, Jimmy Carter, Presidential Review Memorandum – NSC 23, ‘A Coherent US Space Policy,’ 28 March 1977; George C. Marshall Institute, Presidential Decisions: NSC Documents from the Carter Administration, Jimmy Carter, Presidential Directive/NSC 33, ‘Arms Control for Anti-Satellite (ASAT) Systems,’ 10 March 1978; The Jimmy Carter Presidential Library and Museum, Atlanta, GA, Presidential Directives, Jimmy Carter, Presidential Directive/NSC-37, ‘National Space Policy,’ 11 May 1978, pp. 1-2.

[6] George C. Marshall Institute, Presidential Decisions: NSC Documents from the Reagan Administration, Ronald Reagan, National Security Decision Directive Number 42, ‘National Space Policy,’ 4 July 1982.

[6] George C. Marshall Institute, Presidential Decisions: NSC Documents from the Reagan Administration, Ronald Reagan, National Security Decision Directive Number 85, ‘Eliminating the Threat from Ballistic Missiles,’ 25 March 1983; Ronald Reagan Presidential Library, Simi Valley, CA, Office of the Press Secretary, ‘White House Announcement on the Development of a Defensive System Against Nuclear Ballistic Missiles,’ 25 March 1983; George C. Marshall Institute, Presidential Decisions: NSC Documents from the Reagan Administration, Ronald Reagan, National Security Decision Directive Number 119, ‘Strategic Defense Initiative,’ 6 January 1984; George C. Marshall Institute, Presidential Decisions: NSC Documents from the Reagan Administration, Ronald Reagan, National Security Decision Directive Number 195, ‘The US Position: Nuclear and Space Talks,’ 30 October 1985.

[7] George C. Marshall Institute, Presidential Decisions: NSC Documents from the George H.W. Bush Administration, George H.W Bush, NSD-30, NSDP-1, ‘National Space Policy,’ 2 November 1989, p. 3; George C. Marshall Institute,  Presidential Decisions: NSC Documents from the Clinton Administration, Office of the Press Secretary, PDD/NSC-23, ‘Statement on Export of Satellite Imagery and Imaging Systems,’ 10 March 1994; George C. Marshall Institute, Presidential Decisions: NSC Documents from the Clinton Administration, William Clinton, PDD/NSTC-2, ‘Convergence of US-Polar-Orbiting Operational Environmental Satellite Systems,’ 5 May 1994; George C. Marshall Institute, Presidential Decisions: NSC Documents from the Clinton Administration, Office of the Press Secretary, ‘Fact Sheet: US Global Positioning System Policy,’ 29 March 1996.

[8] George C. Marshall Institute, Presidential Decisions: NSC Documents from the George W. Bush Administration, George W. Bush, ‘US National Space Policy,’ 31 August 2006; George C. Marshall Institute, Presidential Decisions: NSC Documents from the Obama Administration, Barack Obama, ‘National Space Policy of the United States of America,’ 28 June 2010.

[9] George W. Bush, ‘US National Space Policy,’ 31 August 2006.

#BookReview – Space Warfare in the 21st Century: Arming the Heavens

#BookReview – Space Warfare in the 21st Century: Arming the Heavens

By Squadron Leader Michael Spencer

Joan Johnson-Freese, Space Warfare in the 21st Century: Arming the Heavens. Abingdon: Routledge, 2017. Notes. Index. xx + 202 pp.

9781138693883

In this book, Joan Johnson-Freese, Professor of National Security Affairs at the US Naval War College, has written a comprehensive history of the development of US national policy for space security. In the preface, Johnson-Freese cited General John Hyten, the then Commander, US Air Force Space Command, as stating that, ‘if the United States is “threatened in space, we have the right of self-defence, and will make sure we execute that right.”’ (p. ix) The underlying driver that persists in twenty-first century US policy developments on space security, up to the publication of this book in 2017, is to be able to access and securely use space for its purposes independently and at the time of its choosing. The US also seeks to keep pace with the increasing number of space-faring nations and developments in space power projection.

The book’s title invokes visions of nations in the twenty-first-century posturing to exploit niche combat capabilities to project their influence into future confrontations into the common grounds located above the Earth that is the shared orbital domain. However, this book is a well-constructed guide that walks the reader through the process of US national policy development for space security. More specifically, the book logically describes to the reader the policy determinants for US national security and space security. It also considers the drivers adopted by the US government that has steered its space security interests and shaped attitudes and organisational responses to assert those interests in the shared space orbital domain in the early period of the twenty-first century. The book concludes with suggesting that US space security policy take the lead in providing a secure space domain.

Space is one of the domains used as a common ground to globally connect actors in activities that either permeates across the globe or are discrete interconnected nodes remote located around the world. Moreover, individual state actors wish to exploit that common ground to build compartments within it for their exclusive purposes. State actors will then seek to build systems to protect these compartments that inadvertently increase the congested, contested, and competitive character of the space domain. This also has implications for dependent capabilities, for example, the use of the electromagnetic spectrum for assured access to space systems that support state interests. The challenge for US policy development is to adopt mechanisms that can discriminate between a hostile act and an accidental on-orbit event and provide options for appropriate responses that will not further exacerbate the problems of congestion and inadvertently escalate the competition into an uncontrolled contest.

Chapter one provides a rolling history of the US government’s inaugural efforts in developing policy statements that injected space interests into national security policy. These were then elaborated further in the first dedicated national space policy and space security strategy. US policy-makers, along with many space-savvy actors, have accepted that in a globalised world, economic and national security have become critically dependent on space. However, space is increasingly complex, not regulated, and serves as a global common, which is a challenge for the security policy of individual nations.

Chapter two characterises the priority problems posed by the utility of the orbital space domain to security policy-makers. The characteristics of space activities in the global common fundamentally challenges the management of national security by individual nations. Space cannot be a physical extension to sovereign airspace. Additionally, space is increasingly more affordable and accessible to more state and non-state actors, and increasingly more critical to designs for public infrastructure and daily lifestyles. Although it is accepted that space is a globally shared common, it has become increasingly congested, contested, and competitive in the absence of robust regulation. The space domain is difficult to control, and this is a driver for significant space-faring nations to consider structuring military force options to help assure space access from adverse environmental effects, on-orbit accidents, potential future adversary actions.

Chapter three discusses the reasons why the US should make strategies for space security. The fundamental assumption made is that conflict in the common grounds is inevitable and that concern over the future capabilities of potential adversary nations in the space domain is an acceptable driver for the development of US space security strategy irrespective of the publicly announced intentions of other nations. Johnson-Freese postulates potential strategy developments in the US along the four separate themes. First, space dominance is essential to assuring US military/civilian capabilities. Second, the weaponisation of space is inevitable. Third, while space is essential to military capabilities, the government should seek to limit the militarisation of space, and finally, the US should promote the use of space as a sanctuary, in a similar analogy to the international cooperation for managing Antarctica. Irrespective of the strategic theme, all discussions conclude that space is the Achilles heel for military power.

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The Defense Advanced Research Projects Agency’s Airborne Launch Assist Space Access program is developing a much-less expensive way to routinely launch small satellites, with a goal of at least a threefold reduction in costs compared to current military and U.S. commercial launch costs. (Source: US Department of Defense)

In chapter four, Johnson-Freese discusses options for military roles that can be performed in and with space to assure space security with a focus on the separate roles and potential technologies for the military to deter, defend, and defeat an adversary in space. The challenge for military commanders is that space is not a logical extension of the air domain. This requires strategists and capability developers to recognise the need to understand the differences in science, technology, and costs. The conduct of warfare in the orbital space domain will be challenged by the definition and ethics of military endstates involving any on-orbit military actions. This is especially true of those legacy effects, such as orbital space debris and disruption to critical public infrastructure, which may endure, potentially, for many generations after a conflict has ended.

Whereas chapters one to four steps the reader through a logical process of understanding the outcomes for a space security strategy and deriving the necessary outputs, chapter five discusses the critical national stakeholders who are essential in putting space strategy into effect, and the support necessary to make it useful. The observation made is that the issue of space security has generated an industry for the pondering, pursuit, and procurement of new space applications by military, industry, aerospace think tanks, academia, and support research organisations. Thus, it is good to define a threat that can be used to justify the significant and long-term investments into space security.

Chapter six is a discussion on the impact of the newest space actors and their behaviours and attitudes towards space. Space access is no longer considered to be exclusive to government-run organisations in space-faring nations. Technology miniaturisation and reduced launch costs have democratised space access to allow non-state actors. Moreover, entrepreneurial investors have triggered a need for strategists to reconsider space as ‘New Space’ to be shared with new additional actors and an increased level of unexpected and complexity in space behaviours. Johnson-Freese refines the book’s premise to consider that access to is space is inevitable but that space warfare is not necessarily inevitable.

Chapter seven concludes the Johnson-Freese’s discussion on strategy development for US space security by highlighting the challenges of democratisation of space access and the globalisation of interdependent space users, both military and non-military. While it is difficult to define a policy for space warfare when a definition for ‘space weapon’ has not yet been universally agreed, space security is complex and might be better achieved under a multi-lateral cooperative arrangement between space-faring nations. While space warfare might serve to achieve a short-term goal, it may be better to appreciate that the more prolonged effects of destabilising the space domain will be detrimental to all space users. A continuously growing number of space users want evermore space-derived services driven by ever-evolving technological improvements that allow more space missions to be conducted near each other. However, this uncontrolled approach by separate nations to individually access the common grounds of the Earth space orbital domain must logically converge at a point where the risks of accidents or deliberate action on orbit must be considered as a likely determinant for future space security policy, and not necessarily a space warfare policy.

In conclusion, this book is well-referenced, and presented in a logical flow of clearly articulated thoughts, making it a useful study reference for strategic thinkers. Johnson-Freese, herself a noted specialist on the space domain, has consulted with subject matter experts from appropriate military and space industry organisations and think-tanks, and is supported by critical individuals typified by the international recognised experts such as Dr David Finkleman, who has served on numerous technical and scientific advisory and study boards for industry and the federal government and is a Fellow of the American Institute of Aeronautics and Astronautics.

Squadron Leader Michael Spencer is currently a serving officer in the Royal Australian Air Force (RAAF). He serves at the Air Power Development Centre in Canberra where he is involved in the analysis of potential risks and opportunities posed by technology change drivers and disruptions to future air and space power. His RAAF career has provided operational experiences in long-range maritime patrol, aircrew training, and weaponeering, and management experiences in international relations, project management in air and space systems acquisitions, space concepts development, and joint force capability integration. He is also an Associate Fellow of the American Institute of Aeronautics & Astronautics. The opinions expressed are his alone and do not reflect those of the RAAF, the Australian Defence Force, or the Australian Government.

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Header Image: An Atlas V rocket carrying a Space Based Infrared System Geosynchronous Earth Orbit satellite for a US Air Force mission lifts off from Cape Canaveral Air Force Station, Florida, 19 January 2018. (Source: US Department of Defense)