Return-path: X-Andrew-Authenticated-as: 7997;andrew.cmu.edu;Ted Anderson Received: from beak.andrew.cmu.edu via trymail for +dist+/afs/andrew.cmu.edu/usr11/tm2b/space/space.dl@andrew.cmu.edu (->+dist+/afs/andrew.cmu.edu/usr11/tm2b/space/space.dl) (->ota+space.digests) ID ; Fri, 9 Nov 1990 02:09:14 -0500 (EST) Message-ID: Precedence: junk Reply-To: space+@Andrew.CMU.EDU From: space-request+@Andrew.CMU.EDU To: space+@Andrew.CMU.EDU Date: Fri, 9 Nov 1990 02:08:42 -0500 (EST) Subject: SPACE Digest V12 #513 SPACE Digest Volume 12 : Issue 513 Today's Topics: Pioneer 11 Update - 10/30/90 Space Politics Technology 2000: NASA outreach to American business (Forwarded) Administrivia: Submissions to the SPACE Digest/sci.space should be mailed to space+@andrew.cmu.edu. Other mail, esp. [un]subscription notices, should be sent to space-request+@andrew.cmu.edu, or, if urgent, to tm2b+@andrew.cmu.edu ---------------------------------------------------------------------- Date: 30 Oct 90 16:05:42 GMT From: usc!sdd.hp.com!elroy.jpl.nasa.gov!jato!mars.jpl.nasa.gov!baalke@ucsd.edu (Ron Baalke) Subject: Pioneer 11 Update - 10/30/90 Pioneer 11 Update October 30, 1990 The Pioneer 11 spacecraft emergency was terminated at 3:29PM (PST) yesterday. ___ _____ ___ /_ /| /____/ \ /_ /| | | | | __ \ /| | | | Ron Baalke | baalke@mars.jpl.nasa.gov ___| | | | |__) |/ | | |___ Jet Propulsion Lab | baalke@jems.jpl.nasa.gov /___| | | | ___/ | |/__ /| M/S 301-355 | |_____|/ |_|/ |_____|/ Pasadena, CA 91109 | ------------------------------ Date: 30 Oct 90 23:50:08 GMT From: uokmax!rwmurphr@apple.com (Robert W Murphree) Subject: Space Politics From the Economist September 29, l990 pp 95-98 SCIENCE AND TECHNOLOGY STAR IN THE DESCENDANT Nasa's problems are not all of its own making ( the first part of the article details NASA's current political woes. It details the struggle between a space friendly George Bush and a budget cutting congress warring over the NASA budget) (beginning somewhere on page 96) NASA for NASA's sake If NASA had a flawless record it would still need strong allies to weather the budget storm. The real, accident-prone NASA has very few. During its entrenchment in the 1970's and 1980's NASA became it own reason for being- a self-fulfilling agency. Government agencies always have a tendancy to get too cosy with clients outside governent. NASA has avoided this, to some extent, by becoming its own client. Consider the space shuttle. When it was originally proposed, part of its attraction was that it would be able to do almost everything that America needed to do in space. The idea was that a third of its flights would be commercial, a third military, and a third pure NASA. That dream is long gone. After the loss of the Challenger it was decided that risking astronauts for the launch of a commercial cargo was out. The Air Force has developed a large unmanned rocket, the Titan IV, to launch its spy satellites; the shuttle launch- pad at Vandenburg Air Force Base in California, the only launch site from which the shuttle can reach the polar orbits preferred for most spy satellites, was mothballed before being used, and will probably be dismantled. From now on, there is unlikely to be more than one defence-department shuttle-flight a year. So NASA now flies the shuttle for itself-providing space for laboratory experiments, a platform for astronomers and launch services for planetary probes Although scientific research directly accounts for only a fifth or so of NASA's budget, according to Dr. Lennard Fisk who runs NASA's officd of space science and applications, it accounts for around three-fifths if the indirect costs of the shuttle services are included. Most of NASA's space-science probes, including those which journey to planets and those which sit close to the earth watching galaxies and stars, have produced exciting results. Few if any, though, have really needed the shuttle. If everything had had to be launched on expendable rockets instead, many programmes would have achieved as much for less money and much more quickly. If all goes according to plan, from 1995 the shuttle will have something new to busy itself with: 28 flights to ferry the components of the space station up to orbit, and a few more to take up crews and experimental material. The station, too, is really of minimal concern to anyone in America other than NASA. There is little commercial interest in using it (there has been little industrial interest in experiments on the space shuttle, either). The military is constrained by agreements with NASA's partners in the undertaking, Western Europe and Japan. So NASA is building a station for NASA to use. Dr Fisk's part of the organisation will be spending $200m a year on research that takes place on the station-which will have cost almost 200 times that amount. Much of that money will be spent on microgravity reasearch, looking at the properties of materials unwarped by the incessant pull of the earth. At present, this discipline has little to show for itself. NASA is more or less creating it to fill up the station. That sounds bad, but NASA has not done badly in its creation of new sciences. There were not many people interested in planets (pretty dull through earth-based telescopes) or what stars look like viewed in gamma rays (unknowable from the earth) before NASA, in search of smart things to do, revealed the new vistas of planetary science and high-energy astrophysics to them. THE POLITICS OF FREEDOM The fact that people outside NASA have scant use for the station suggests that it is eminently cuttable. But although there is little outside interest, NASA has made sure that plenty of people are involved. The development and construction have been cut into four "work packages", each run by one of NASA's large regional centres. Each centre has chosen a different company as the prime contractor for its package. Thus the bits of the station that people will live in are being designed by Boeing and the Marshall Space Flight Centre in Alabama, while the Truss that the crew modules are attached to is looked after by Johnson Space Centre in Houston and McDonnell Douglas. Dr James Beggs, the NASA chief who sold the station to President Reagan, recently told a newsletter, Space Station News, that he spread the work around specifically for the political benefits it might bring. Similar reasoning might explain the fact that the station is being build in concert with Japan, Europe and Canada, international obligation can keep budget-cutters at bay, though they also mean that NASA has to work in partnership, something for which it has recently shown little flair. Dr Begg's political wiliness may well have helped the space station get going, but its legacy has hindered the station's progress. Two years ago the programme was in bad shape, in large part because the Washington headquarters did not have enough control over the regional centres. PAGE 98 (last page) Sorting that out was the biggest challenge that faced Admiral Richard Truly, former shuttle pilot and commander, when he took over NASA a year and a half ago. The managment team he has assembled, all old NASA hands, commands respect for its competence, if not for its vision. It realises that the station's problems are managerial more than technological; NASA has not developed much large-scale, new technology since the space shuttle's engines. Under their stern supervision, Freedom has become more ship-shape. Problems have been found, but the station is at just the right stage of its development-moving from paper to metal, which acounts for NASA's increased budget requests-for them to be dealt with. Problems like too much weight, and too much power needed for housekeeping, are scarcely new. Most space projects are at first too heavy to fly. Solutions for such problems are arrived at by looking at the designs with a clear head and a sharp red pencil- just what is happening. STARDUST MEMORIES There are also less tractable snags. The most pervasive criticism of NASA is that it just ain't what it used to be; that compared with the NASA of the Apollo years, it is a stodgy bureacracy. The charges, which almost everyone thinks contain some truth, stem from changes forced on NASA. Problems with Apollo-of which there were many, including the loss of three astronauts in a launch-pad fire-ere solved not by ingenuity alone but by ingenuity coupled with a lot of money and a lot of eager young engineers. In the 1970's NASA lost its budgets and some of its staff, and those among the staff who stayed lost their youth. Unsurprisingly, some the the eagerness went by the wayside too. Throughout the 1970's, with nobody hired, the agency's average age wqent up by a year every year. It is now beginning to fall- as Admiral Truly is keen to point out-but age remains a problem. Threequarters of NASA's middle and senior managers are within five years of possible retirement. Almost everyone in a senior position has been in NASA for 20 years or so. The infrastructure at NASA's centres is also aging. Age and continuity bring a settled way of doing things, expecially in a rather isolated bureaucracy. They naturally lead to a "not-invented-here" dismissiveness of new ideas, as well as problems like sloppiness in overseeing work done by contractors. Consider the space agency's response to President Bush's call for new explorations, which was widely seen as unimaginative. There are lots of novel ideas outside NASA about how to get to Mars- cobbled-together space ships, hibernating crews, inflatable crew capsules. Some may deserve all the derision they get, but others may be good. NASA's own response showed that it had not been spending much time exploring new technologies, which is sad since its charter enjoins it primarily to research and to explore. Developing and operating the shuttle, and now the station, has meant that research into future technologies has been elbowed aside. Nuclear propulsion, which may not be needed for the first mission to Mars, but would make it much easier, and seems unavoidable if travel beyond the moon becomes routine, has not advanced much since pilot studies of it in the 1960's. The corporate culture of NASA will change as the Apollo generation retires, and the bureaucracy regains some of its lost youth. but there are doubts about the quality of NASA's recruits. Admiral Truly claims that NASA is getting the best of the bunch; if so, it is getting them at less than the going rate. Gifted yound engineers who want to design space craft can go to an aerospace company and be paid much more than NASA can offer. As the Space Council reaches out towards the aerospace industry, they might even be able to have some influence over the design of missions, too. If they choose NASA instead, and expecially if they pick space-station work, they will find themselves among frustrated colleagues. When the space-station budget for next year is fixed, the programme will more or less halt to spend a few months trimming, chopping, changing, dropping, delaying, and all the time knowing that they same may happen again next year. It is a dispiriting way to work. THE WORST OF ALL WORLDS With the new recruits and new purpose, as one part of a coherent exploration policy, NASA might quite quickly recover its former glories. It would require shaking up, as all institutions do from time to time. it might also need some restructuring-scientific research could be further removed from the development of flight technologies-and some new partners, including foreign ones. But although there is a clear need for innovation, there is also a need for expertise and experience. To abolish NASA and replace it, rather than open it up, would be wastful. That is not a cheap fix. If NASA is to stay healthy, it must keep moving. That requires a goal to move towards and money to move with. Without that money things will get worse-unless parts of NASA are amputated. If the space station were cancelled, the shuttle programme cut back, and some of the regional centres closed, NASA would still be able to do a useful job, provided it survived the shock of such surgery. The centrepiece of such a NASA would be the earth-observing system (EOS) now under development, a series of six satellites that would, as part of an even larger international venture, study the workings of the earth in unprecedented detail. EOS is expensive ($40 billion, spend over most of three decades), but the idea of using space to analyse, if not solve, the world's evironmental problems is extremely popular. With EOS and a plethora of smaller earth-oriented missions-19 are on the drawing board at the moment- NASA could take the lead in monitoring global change. At the same time, it could slowly continue its exploration of the planets and carry on scrutinising the cosmos. It would be a different agency, and a lesser one, but not a useless one. Indeed, such a space programme could provide better value for money than do today's expensively underfunded ambitions. It would also signal retreat. NASA, more than anything, once proclaimed America's technological lead to the world. To more or less close down its manned programme would look like a renunciation of that lead, though the manned programme is not really at the forefront of technology. That is not a renunciation that President Bush or Congress are keen to make. So NASA is unlikely to die, or to be transformed radically. It is likely to stuggle on, unable to do what is being asked of it with the money granted it, unable to shed its burdens, even if willing, and blamed by everyone for manifesting an indecision beyond its control. If that is the way it goes, today's bruised NASA will surely turn rotten. END OF ARTICLE ------------------------------ Date: 31 Oct 90 01:07:25 GMT From: trident.arc.nasa.gov!yee@ames.arc.nasa.gov (Peter E. Yee) Subject: Technology 2000: NASA outreach to American business (Forwarded) Barbara Selby Headquarters, Washington, D.C. October 30, 1990 (Phone: 703/557-5609) RELEASE: 90-147 TECHNOLOGY 2000: NASA OUTREACH TO AMERICAN BUSINESS TECHNOLOGY 2000, the first industrial exposition and conference to showcase the transfer of NASA technology to American business, will take place on Nov. 27-28 at the Washington Hilton Hotel, Washington, D.C. Dr. D. Allan Bromley, Assistant to the President for Science and Technology, will present the keynote address at 8:45 a.m. on Nov. 27. This premier national event also will feature speakers and exhibitors from NASA and its contractors, who will address prior and potential spinoffs of the agency's research. Additionally, current and planned research and development innovations now coming on line from the Earth Observation System, the National Aero-Space Plane and moon-Mars studies will be spotlighted. During the 2-day symposium, more than 100 presentations by NASA and industry leaders will address the following topics: artificial intelligence; computer technology and software engineering; environmental science; human factors engineering and life sciences; information and data management; manufacturing and fabrication technology; materials science; optics and communications; power, energy and control systems; robotics; sensors and measurement technology and superconductivity. The show will feature more than 150 exhibitors representing the space agency's field centers, major contractors, spinoff companies, non-aerospace high-tech firms, state technology transfer offices, university research centers, Small Business Innovation Research program contract recipients and NASA Centers for the Commercial Development of Space. In a special session, information will be presented on how industry can gain access to new and emerging technologies through the NASA Technology Utilization Division. A highlight of TECHNOLOGY 2000 will be an awards dinner to celebrate NASA achievements in technology transfer and to honor the agency and its contractor contributors to "NASA Tech Briefs." The awards will be presented by the Technology Utilization and Associated Business Publications, Inc., publisher of the agency periodical which now reaches more than 200,000 subscribers in U.S. industry. The exposition and conference are sponsored by NASA, the Technology Utilization Foundation non-profit organization and "NASA Tech Briefs" monthly magazine devoted to transferring technical innovations to private industry. The event seeks to increase the level of technology transfer to non-aerospace firms. ------------------------------ End of SPACE Digest V12 #513 *******************