Study of tethered satellite active attitude control
Abstract
Existing software was adapted for the study of tethered subsatellite rotational dynamics, an analytic solution for a stable configuration of a tethered subsatellite was developed, the analytic and numerical integrator (computer) solutions for this "test case' was compared in a two mass tether model program (DUMBEL), the existing multiple mass tether model (SKYHOOK) was modified to include subsatellite rotational dynamics, the analytic "test case,' was verified, and the use of the SKYHOOK rotational dynamics capability with a computer run showing the effect of a single off axis thruster on the behavior of the subsatellite was demonstrated. Subroutines for specific attitude control systems are developed and applied to the study of the behavior of the tethered subsatellite under realistic on orbit conditions. The effect of all tether "inputs,' including pendular oscillations, air drag, and electrodynamic interactions, on the dynamic behavior of the tether are included.
- Publication:
-
Smithsonian Astrophysical Observatory Report
- Pub Date:
- October 1982
- Bibcode:
- 1982sao..rept.....C
- Keywords:
-
- Dynamic Characteristics;
- Electrodynamics;
- Satellite Attitude Control;
- Satellite Rotation;
- Tethered Satellites;
- Center Of Mass;
- Dynamic Models;
- Numerical Integration;
- Launch Vehicles and Space Vehicles