The advantages that will accrue from the in-orbit servicing of satellites are listed. It is noted that in a concept in satellite servicing which holds promise as a compromise between the high flexibility and adaptability of manned vehicles and the lower cost of an unmanned vehicle involves an unmanned servicer carrying a remotely supervised robotic manipulator arm. Because of deficiencies in sensor technology, robot servicing would require that satellites be designed according to a modular concept. A description is given of the servicer simulation hardware, the computer and interface hardware, and the software. It is noted that several areas require further development; these include automated docking, modularization of satellite design, reliable connector and latching mechanisms, development of manipulators for space environments, and development of automated diagnostic techniques.
Computer control of a robotic satellite servicer
SOUTHEASTCON ''80; Region 3 Conference and Exhibit ; 1980 ; Nashville, TN
1980-01-01
Sonstige
Keine Angabe
Englisch
GEO Robotic Servicer Trajectory Optimization
AIAA | 2016
|SLUB | 1990
|NTIS | 1990
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