DocumentCode
487999
Title
Backup Nutation Damping Strategy for the Galileo Spacecraft
Author
Eke, Fidelis O. ; Eke, Estelle M.
Author_Institution
Associate Professor of Mechanical Engineering, School of Engineering and Architecture, Tuskegee University, Tuskegee, Alabama 36088
fYear
1989
fDate
21-23 June 1989
Firstpage
2263
Lastpage
2268
Abstract
This paper discusses the design and testing of remedial measures that can be taken to achieve reasonable nutation damping of the Galileo spacecraft in the event of failure of its boom damper in flight. One scheme exploits the effects of payload motion on the nutational stability of a spinning spacecraft. This scheme demands that the spacecraft motion compensation algorithm be enabled with the scan platform bore sight pointed in a well chosen direction to produce rapid damping of spacecraft nutation. A second method suggested for nutation damping is a thruster-based open loop control algorithm, utilizing a pair of thrusters as actuators.
Keywords
Boring; Damping; Motion compensation; Open loop systems; Payloads; Shock absorbers; Space vehicles; Spinning; Stability; Testing;
fLanguage
English
Publisher
ieee
Conference_Titel
American Control Conference, 1989
Conference_Location
Pittsburgh, PA, USA
Type
conf
Filename
4790566
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