LSST system analysis and integration task for an advanced science and application space platform
Abstract
To support the development of an advanced science and application space platform (ASASP) requirements of a representative set of payloads requiring large separation distances selected from the Science and Applications Space Platform data base. These payloads were a 100 meter diameter atmospheric gravity wave antenna, a 100 meter by 100 meter particle beam injection experiment, a 2 meter diameter, 18 meter long astrometric telescope, and a 15 meter diameter, 35 meter long large ambient deployable IR telescope. A low earth orbit at 500 km altitude and 56 deg inclination was selected as being the best compromise for meeting payload requirements. Platform subsystems were defined which would support the payload requirements and a physical platform concept was developed. Structural system requirements which included utilities accommodation, interface requirements, and platform strength and stiffness requirements were developed. An attitude control system concept was also described. The resultant ASASP concept was analyzed and technological developments deemed necessary in the area of large space systems were recommended.
- Publication:
-
Final Report McDonnell-Douglas Astronautics Co
- Pub Date:
- July 1980
- Bibcode:
- 1980mdss.reptQ.....
- Keywords:
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- Large Space Structures;
- Mission Planning;
- Stabilized Platforms;
- Structural Design Criteria;
- Systems Analysis;
- Attitude Control;
- Payloads;
- Pointing Control Systems;
- Power Modules (Sts);
- Stationkeeping;
- User Requirements;
- Launch Vehicles and Space Vehicles