Status Report

Statement By Norman R. Augustine – House Science Committee Hearing: “Perspectives on the President’s Vision for Space Exploration”

By SpaceRef Editor
March 10, 2004
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Statement By Norman R. Augustine

Chair of Committee on the Future of the U.S. Space Program (1990)

Committee on Science

United States House of Representatives

Washington, D.C.

March 10, 2004

Mr. Chairman and Members of the Committee, thank you for
the invitation to appear before you today. I am pleased that you
are taking this opportunity to examine America’s space program
and hope that a plan can be created which will endure over time
and in which all Americans can take pride.

Before making my statement I should, in the spirit of full
disclosure, call to your attention that I am a retiree and Board
Member of the Lockheed Martin Corporation, a former President
of the American Institute of Aeronautics and Astronautics, a
former director of The Planetary Society and a former chairman of
the Aerospace Industry Association.

I have been asked to address the findings of the Committee
on the Future of the U.S. Space Program, a committee which was
established approximately fourteen years ago by then-President
Bush. I will briefly summarize what I believe were some of our more significant findings and recommendations and, as you have
requested, close with a few brief observations of my own.
It goes without saying that a great deal has changed since the
commission which I chaired conducted its work. Today there is no
Soviet Union dedicating substantial resources to maintain its own
dynamic space program—and thereby providing a competitive
impetus to America’s space program. In fact, rather than the
Soviets and the U.S. being adversaries in space, the company I
recently had the privilege of serving is now a partner in launching
commercial spacecraft with those same Soviet enterprises that
conducted the USSR space program of an earlier era—a notion that
would have been unimaginable during the period preceding our
committee’s deliberations.

And there have been other significant changes which have
impacted America’s space program during the period which has
intervened. For example,

  • China is emerging as a major space participant, having
    recently taken particularly significant steps toward full
    membership in the space community.
  • The United States has not realized the ten percent annual
    growth in the NASA budget that was forecast by virtually all
    senior officials in both the Executive Branch and the
    Congress at the time our commission commenced its work.
    In fact, NASA’s budget, although still significant, has
    diminished in real terms.
  • The commercial space business, (constructing and launching
    spacecraft) which seemed to hold such great promise a
    decade ago has largely been reduced to a commodity market
    and as such has, from an economic standpoint at least, been a
    disappointment.
  • America’s space industrial base has shrunk from a number of
    relatively healthy aerospace companies to a very few firms
    still maintaining strong space credentials . . . this being
    largely a consequence of the restructuring of the aerospace
    industry which occurred when defense spending dropped
    precipitously following the end of the Cold War.
  • And there still seems to be no broad consensus as to what
    America’s long-term space program should comprise.
    On the other hand, a great deal has not changed. For
    example,
  • Today we meet, as did our committee, in the wake of a
    failure of the Space Shuttle . . . in our case, the Challenger.
  • There continues to be strong grassroots support for a space
    program, however, the transformation of that interest into
    budgetary measures has not been evident.
  • There remain severe competing and legitimate pressures for
    federal funds . . . with the need to counter terrorism
    supplanting certain of the demands of the Cold War.
  • The number of U.S. citizens studying engineering has
    continued to decline, even in the midst of the greatest
    technological explosion in history—an explosion which is
    growing our economy and modifying our lifestyle at a pace
    never before witnessed. Meanwhile, the scientific and
    technological capacities of many other nations are increasing
    markedly.
  • America’s K-12 educational system remains in extremis,
    especially in the areas of science and technology—disciplines
    where space activity seems to be one of the few pursuits that
    truly inspires many of our young people.
  • There remains continuing concern over the apparent loss of
    some of NASA’s innovativeness, management acumen and
    systems engineering skill. At the same time, NASA, without
    question, remains the finest space organization in the world,
    producing remarkable accomplishments on a continuing basis
    and doing so openly and publicly for all to observe . . . for
    better or for worse. Nonetheless, few would confuse the
    NASA of today with the NASA of the Apollo era.
    Unfortunately, much of the public, and, of even greater
    concern, some at NASA, seem to take for granted these
    incredible achievements. Dan Goldin, when he was serving
    as Administrator of NASA, shared with me an incident concerning a citizen who had complained to him about
    NASA spending substantial sums of money on
    meteorological satellites, asking, “Why do we need
    meteorological satellites? We have the weather channel”.
  • I would like now to turn to some of our commission’s
    findings and recommendations. They are, I believe, surprisingly
    relevant today, even though well over a decade has passed since
    they were first stated. I will cite thirteen of the more significant of
    these findings and will address each only very briefly in deference
    to the time available.

  • First, we found a NASA which was badly overcommitted in
    terms of the funding demands of the programs it was
    undertaking as compared with the funding which was
    available. The Space Shuttle and the Space Station were
    major consumers of that budget, leaving little room for other
    initiatives while making smaller projects highly vulnerable to the consequences of cost-growth in these two major
    programs. A primary concern was the lack of adequate
    reserves in terms of time, schedule and technological
    approaches—a condition which exacerbated the potential
    impact of risks already inherent in NASA’s challenging
    endeavors.
  • Second, in the post-Apollo period there seemed to be a lack
    of a broadly embraced national goal for our space program
    . . . some would even say that America was lost in space. At
    the same time, our commission believed that it was
    inappropriate to set a firm date to achieve a specific major
    space goal given the then-prevailing budgetary
    circumstances. Rather, we felt it was important to invest first
    in building a solid technological foundation for whatever was
    to be America’s long-term program and thereafter to conduct
    that program on what we called a “go-as-you-pay” basis . . .
    an approach that was recognized as differing markedly from the highly successful strategy adopted by President Kennedy
    for the Apollo program. Our recommendation was merely a
    reflection of the fact that times had changed and that large
    sums of additional near-term money to underpin a major
    space venture, such as a human Mars program, were unlikely
    to be forthcoming.
  • Third, we concluded that America’s space program should be
    a balanced program, involving both humans in space and the
    use of robotic spacecraft. Although there were those who
    exclusively advocated robotic systems, it was our belief that
    public support for the overall space program would diminish
    rapidly were the nation to adopt a purely unmanned approach
    to space exploration. As we pointed out in our report, the
    difference between Hillary reaching the summit of Mt.
    Everest and simply lobbing a rocket carrying an electronic
    package to the mountain’s crest is immense in terms of the
    inspiration humankind derives from the feat.
  • Fourth, we concluded that science should be the first priority
    of our space program . . . since science is the basis of new
    knowledge and thereby forms the underpinning of
    technological progress.
  • Fifth, there should be a mission to the planet earth as well as
    a mission from the planet earth, the former focusing on the
    earth’s biosphere and the need to protect our planet from
    harmful activities which take place here on earth.
  • Sixth, space transportation was, and I might note is, the
    primary impediment to a continuing healthy space program.
    It was concluded that we should not use humans in space
    merely as “truck drivers” . . . rather, we should limit their
    role to instances where humans insitu can in fact make a
    difference. In short, we urgently needed to mitigate our
    dependence on the Space Shuttle for logistical missions.
  • Seventh, very high priority was placed on developing a new
    unmanned (but potentially man-ratable) launch vehicle with a
    relatively heavy lift capability. In this regard, we
    recommended, as an economic move, that no additional
    Shuttles be built.
  • Eighth, the operation of the Space Shuttle should not be
    viewed, as had increasingly been the case in the late 1980s,
    as being somewhat analogous to running an airline. The
    Shuttle was, and is, best characterized as an advanced
    development program operating in a very unforgiving
    environment.
  • Ninth, we noted quite explicitly that it was not a matter of if
    we would lose another Space Shuttle but only a matter of
    when. This unfortunate conclusion was based on our belief
    that the reliability estimates which were then being attributed to the Shuttle were grossly optimistic. In fact, we predicted
    that such a loss would probably occur “in the next several
    years” and we went on to note that if America does not have
    the will to endure occasional losses—having taken all
    reasonable steps to try to avoid them—we should then
    reconsider whether our nation belongs in space at all. Space
    is inherently a dangerous and risky place . . . one which is
    altogether unforgiving of human failings. No one realizes
    this more than the astronauts who fly our machines into
    space.
  • Tenth, the Space Station program needed to be restructured
    to place it on a more conservative schedule and more realistic
    financial basis, importantly including the provision of
    adequate reserves.

  • Eleventh, there was a need to proceed with dispatch in the
    development of some form of a space rescue vehicle . . . a vehicle which could perhaps perform other important
    missions as well.

  • Twelfth, we concluded that a human trip to Mars is the
    correct long-term goal for America’s space program, using
    the moon as a stepping-stone along the way. Other possible
    missions were considered, including establishing a permanent
    station at the neutral gravity point in the earth-moon system.
    This would in fact produce a useful way-station for
    exploration of deeper space, however it provides an
    altogether uninteresting locale for most other forms of
    scientific enterprise. Alternatively, one could increase the
    effort focused on earth-orbiting spacecraft, however, the
    Space Station seemed to be handling that goal very
    adequately and was itself likely to suffer from the law of
    diminishing returns in the longer-term. Missions to Phobos
    and Deimos appeared exciting, but could be accomplished as
    a part of a Mars project. Missions to other space objects would seem to be candidates for the more distant future.

    Thus, a return to the moon followed by a Mars mission
    seemed to us to be the correct long-term goal for America’s
    space program.

  • Thirteenth, and lastly, NASA’s management structure,
    engineering approach and overhead costs needed to be
    streamlined. As with many mature organizations, the drive
    toward self-perpetuation seemed to be overtaking enthusiasm
    for innovation. The various Centers were often engaged in
    non-constructive competition with one another, seemingly
    united only in their not-infrequent skirmishes with NASA
    headquarters.
  • That, then, summarizes the principal findings of our
    commission of fourteen years ago. As I have noted, most of these
    observations seem quite relevant even today.

    Now, with your permission, I would like to conclude my
    remarks with four very brief observations not on behalf of our
    commission but on my own stead.

    First, if America is to have a robust space program it is
    critical that we build a national consensus as to what that program
    should comprise. If, for example, we are to pursue an objective
    that requires twenty years to achieve, that then implies we must
    have the sustained support of five consecutive presidential
    administrations, ten consecutive Congresses and twenty
    consecutive federal budgets—a feat the difficulty of which seems
    to eclipse any technological challenge space exploration may
    engender. This consideration argues for a major space undertaking
    that could be accomplished in step-wise milestones, each
    contributing to a uniting long-term goal. Such an approach has the
    added advantage that it reduces the risk associated with individual
    steps. It is this consideration which justifies a mission to Mars with an initial step to the moon—as philosophically opposed to a
    return to the moon with a potential visit to Mars.
    Second, I believe that the exploration of space with humans
    offers many scientific, technological and economic benefits. But
    these tangible benefits are, in my opinion, not sufficient in
    themselves to justify the cost of the undertaking. To do the latter
    one must assign value to intangibles, intangibles such as the
    excitement of exploring the unknown; of creating new knowledge;
    of stimulating science and engineering education; of undertaking
    challenging and inspiring goals; and of demonstrating to the world
    what America can do when it puts its mind to a task. Critics will
    of course suggest that we cannot afford such “luxuries” in a time of
    great and legitimate demands to address compelling earthly
    problems—but if they are correct, one must also ask whether we
    can then afford football stadiums, Hollywood entertainment, golf
    courses and a thousand other well accepted pursuits.

    Third, and this is extremely important, it would be a grave
    mistake to try to pursue a space program “on the cheap”. To do so
    is in my opinion an invitation to disaster. There is a tendency in
    any “can-do” organization to believe that it can operate with
    almost any budget that is made available. The fact is that trying to
    do so is a mistake—particularly when safety is a major
    consideration. I am not arguing for profligacy; rather, I am simply
    pointing out that space activity is expensive and that it is difficult.
    One might even say that it is rocket science!

    Significant funding will still be required for many years to
    support the operation of the Space Station and Space Shuttle. The
    NASA infrastructure itself absorbs substantial funds, as does the
    very important NASA research program. And there is always the
    problem that technology advances so rapidly that any project
    proceeding at too leisurely a pace will find itself constantly
    undertaking redesigns due to the obsolescence of the components it
    incorporates . . . sort of a never-ending “do-loop”.

    And finally, as a general observation, I would like to strongly
    affiliate myself with the President’s recently announced plan to
    send humans to Mars and to do so via a lunar way-station. Oneday
    humans will stand on Mars. The only question is when . . . and
    who. The first Martian may well be in the fourth grade right now.
    Hopefully, somewhere in the United States.

    Thank you.

    NORMAN R. AUGUSTINE was raised in Colorado and attended Princeton University
    where he graduated with a BSE in Aeronautical Engineering, magna cum laude, an MSE
    and was elected to Phi Beta Kappa, Tau Beta Pi and Sigma Xi.

    In 1958 he joined the Douglas Aircraft Company in California where he held titles of
    Program Manager and Chief Engineer. Beginning in 1965, he served in the Pentagon in
    the Office of the Secretary of Defense as an Assistant Director of Defense Research and
    Engineering. Joining the LTV Missiles and Space Company in 1970, he served as Vice
    President, Advanced Programs and Marketing. In 1973 he returned to government as
    Assistant Secretary of the Army and in 1975 as Under Secretary of the Army and later
    as Acting Secretary of the Army. Joining Martin Marietta Corporation in 1977, he served
    as Chairman and CEO from 1988 and 1987, respectively, until 1995, having previously
    been President and Chief Operating Officer. He served as President of Lockheed Martin
    Corporation upon the formation of that company in 1995, and became its Chief
    Executive Officer on January 1, 1996, and later Chairman. Retiring as an employee of
    Lockheed Martin in August, 1997, he joined the faculty of the Princeton University
    School of Engineering and Applied Science where he served as Lecturer with the Rank
    of Professor until July, 1999.

    Mr. Augustine served as Chairman and Principal Officer of the American Red Cross for
    nine years and as Chairman of the National Academy of Engineering, the Association of
    the United States Army, the Aerospace Industry Association, and the Defense Science
    Board. He is a former President of the American Institute of Aeronautics and
    Astronautics and the Boy Scouts of America. He is currently a member of the Board of
    Directors of ConocoPhillips, Black & Decker, Procter & Gamble and Lockheed Martin
    and was founding chairman of In-Q-Tel. He is a member of the Board of Trustees of
    Colonial Williamsburg and Johns Hopkins and a former member of the Board of
    Trustees of Princeton and MIT. He is a member of the President’s Council of Advisors
    on Science and Technology and the Department of Homeland Security Advisory Board
    and was a member of the Hart/Rudman Commission on National Security.

    Mr. Augustine has been presented the National Medal of Technology by the President of
    the United States and has five times been awarded the Department of Defense’s highest
    civilian decoration, the Distinguished Service Medal. He is co-author of The Defense
    Revolution and Shakespeare In Charge and author of Augustine’s Laws and Augustine’s
    Travels. He holds eighteen honorary degrees and was selected by Who’s Who in
    America and the Library of Congress as one of the Fifty Great Americans on the
    occasion of Who’s Who’s fiftieth anniversary. He has traveled in nearly 100 countries
    and stood on both the North and South Poles.

    SpaceRef staff editor.