Responding to the Potential Threat of a Near-Earth-Object Impact

Summary

Evidence that the Earth may be impacted by an asteroid or comet large enough to cause global devastation is increasing rapidly. As recommended by AIAA's 1990 position paper, Congressional directed workshops on Near-Earth-Object (NEO) detection and intercept were conducted and interagency and international collaborations began. This position paper recommends continuing the NEO activities by:

a)accelerating the search for asteroids and short period comets,

b)developing concepts and plans for following detection and intercept systems, and c) establishing a central program office in the U.S. to provide a focal point for systems engineering, technology integration and international cooperation.

Background

In April 1990, AIAA's Space Systems Technical Committee, chaired by E. Tagliaferri, published the position paper, Dealing With the Threat of an Asteroid Striking the Earth. This paper, precipitated by the close passage of asteroid 1989FC - with zero warning time - helped stimulate broad interest and concern in this potential threat to civilization and even to the survival of humanity. Soon afterwards, the U.S. House of Representatives Committee on Science, Space and Technology directed NASA to conduct two workshops related to the asteroid threat as recommended in the position paper, one for the detection and characterization of the threat, including determining the orbits with precision which would allow the accurate prediction of an impact, and another which dealt with issues related to mitigating the threat. On March 24, 1993, the results of these workshops were summarized and discussed in a formal hearing before this same Congressional Committee. The class of potentially threatening objects was enlarged to include long period comets as well as earth-orbit crossing asteroids; together they were defined as near earth objects (NEOs).

World-wide attention, based on recognition of the reality of the NEO threat has increased enormously over the past decade. Scientific consensus that a NEO impact was the primary cause of the Cretaceous/Tertiary (KT) boundary and the sharp end of the age of the dinosaurs was further consolidated with the identification of the probable impact crater on the Yucatan Peninsula. As requested by Congress, the participation by the U.S. Department of Defense and the developed nations worldwide has begun. Public attention has been captured by the prediction of on earth by comet Swift-Tuttle (later retracted ) and then by the actual impact on Jupiter by comet Shoemaker-Levy 9, which not only proved to be the most violent event in the solar system during recorded history, but was also an excellent example of rapid and accurate orbit determination.

The Space Systems Technical Committee of the AIAA believes it has a responsibility to continue the work begun by Mr. Tagliaferri five years ago by helping to focus national and international attention on the issues raised by the NASA workshops. By providing a forum open to a diversity of views and competencies, we can perhaps help illuminate and resolve issues with broad system and technical implications. In this activity, we are joined by other capable organizations with an interest on converging to the best possible decisions regarding these issues: AIAA's Systems Engineering Technical Committee, the National Council on Systems Engineering (NCOSE), the Institute of Electrical and Electronic Engineers' (IEEE) Aerospace and Electronic Systems Society (AESS), and the Space Studies Institute (SSI).

Consensus and Recommendations

It is the consensus of these organizations that, although the likelihood of an NEO impact is extremely low, the consequence can rage from the devastation typical of a nuclear warhead for small objects to billions of fatalities, the end of civilization and even the extinction of mankind for large objects. This combination of likelihood and consequence is significant enough to demand a response and, fortunately, humanity's resources and technology can probably provide cost effective answers to this potential threat.

Furthermore, these organizations recommend:

1. Immediate approval of a program to accelerate the discovery of NEOs. Extrapolating the present rate of discovery of kilometer-size NEOs by a small and dedicated team of astronomers, it would take hundreds of years to discover the approximately 2000 objects of this size. The investment in a system to accelerate the discovery schedule to about 20 years seems to have an extremely attractive cost benefit ratio, reducing the risk of global catastrophe by about a factor of four. This first phase postpones the investment of a mitigation system since it is estimated that 75% of the objects discovered will be asteroids or short period comets where the impending impacts will have ample warning times for the development of mitigation systems.
2. Immediate institution of a plan to conduct operations and mission analysis, systems concepts and technology studies to implement followon phases of the eventual planetary defense system. These studies would be devoted to a broad perspective examination of the systems engineering, risk management and cost effectiveness aspects of extending the total system capability in at least these directions:
• Improving the accuracy and speed of orbit determination,
• Improving the detection capability and warning time against large, long period comets capable of global devastation,
• Improving the capability against smaller NEOs capable of major mortality and destruction
• Determining the feasibility of NEO rendezvous for characterization regarding potential intercept concepts as well as for scientific and potential exploitation purposes,
• Developing mitigation system concepts,
• Establishing a test plan to reduce technical uncertainties,
• Constructing the architecture of a command, control and communication system
• Laying out a total program development plan whose schedule is phased in response to available resources and the criticality of the risk assessment as a function of time.
3. Implement hardware and test programs on the phased schedule developed in item 2) Once the primary sensor system described in 1) has been deployed, opportunities for increasing its capability or critical tests, can be undertaken in accordance with the development plan.
4. Establish an Office of Primary Responsibility in the United States and Encourage the Establishment of Similar Offices in the Developed Nations. The objective of this office is to provide the focal point for overall program management, planning and systems engineering, as well as coordinate delegated responsibilities regarding NEO detection, intercept, rendezvous, command and control systems and activities with our international partners.

Epilogue

In his opening statement to the Congressional hearings on the NEO threat on March 24, 1993, George E. Brown, Jr. stated:

"If some day in the future we discover well in advance that an asteroid that is big enough to cause a mass extinction is going to hit the Earth, and then we alter the course of that asteroid so that it does not hit us, it will be one of the most important accomplishments in all of human history."

AIAA and its cooperating organizations strongly believe Congressman Brown's statement is true, as well as its reverse:

If some day an asteroid does strike the Earth, killing not only the human race but millions of other species as well, and we could have prevented it but did not because of indecision, unbalanced priorities, imprecise risk definition and incomplete planning, then it will be the greatest abdication in all of human history not to use our gift of rational intellect and conscience to shepherd our own survival, and that of all life on Earth."

Primary Contributors From Endorsing Organizations:

George Friedman, Chairman, NEO Subcommittee, Space System Technical Committee, AIAA
Ed Tagliaferri, Special Advisor to the NEO Subcommittee, AIAA
Robert Jones, Secretary, Space Systems Technical Committee, AIAA
Rosario Nici, Space System Technical Committee, AIAA
Mike Simon, Space Systems Technical committee, AIAA
Bruce Pittman, Chairman, Systems Engineering Technical Committee, AIAA
Al Myer, Systems Engineering Technical Committee, AIAA
Myron Kayton, President, Aerospace and Electronics Systems Society (AESS), IEEE
John Morris, Chairman, Space and Environmental Systems Panel, AESS, IEEE
Eric Honour, Chairman, Technical Board, National Council on Systems Engineering (SSI)
Roger O"Neill, Chairman, Space Studies Institute

Our Thanks to the Following Who Provided Additional Comments Which Constructively Changed the Position Paper:

David Morrison, NASA Ames
Clark Chapman, Planetary Science Institute
Louis Friedman, The Planetary Society
John Darrah, U.S. Air Force Space Command
Terry Dawson, U.S. Congressional Staff

Draft of January 9, 1995