AAS 196th Meeting, June 2000
Session 32. Space Instrumentation
Display, Tuesday, June 6, 2000, 10:00am-6:30pm, Empire Hall South

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[32.02] The EUVE Mission at UCB: Squeezing More From Less

B.A. Stroozas, J.L. Cullison, K.E. McDonald, R. Nevitt, R.F. Malina (Center for EUV Astrophysics, University of California, Berkeley)

With ~8 years on orbit, and over three years in an outsourced mode at U.C. Berkeley (UCB), NASA's Extreme Ultraviolet Explorer (EUVE) continues to be a highly mature and productive scientific mission. The EUVE satellite is extremely stable and exhibits little degradation in its original scientific capabilities, and science data return continues to be at the >99% level. The Project's very small, dedicated, innovative, and relatively cheap (~$1 million/year) support team at UCB continues to validate the success of NASA's outsourcing "experiment" while providing a very high science-per-dollar return on NASA's investment with no significant additional risk to the flight systems.

The EUVE mission still has much more to offer in terms of important and exciting scientific discoveries as well as mission operations innovations. To highlight this belief the EUVE team at UCB continues to find creative ways to do more with less -- to squeeze the maximum out of available funds -- in NASA's "cheaper, better, faster" environment.

This paper provides an overview of the EUVE mission's past, current, and potential future efforts toward automating and integrating its multi-functional data processing systems in proposal management, observation planning, mission operations and engineering, and the processing, archival, and delivery of raw telemetry and science data products. The paper will also discuss the creative allocation of the Project's few remaining personnel resources who support both core mission functions and new innovations, while at the same time minimizing overall risk and stretching the available budget.

This work is funded through NASA/UCB Cooperative Agreement NCC5-138.


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The author(s) of this abstract have provided an email address for comments about the abstract: bretts@cea.berkeley.edu

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