Adaptive attitude maneuver control for satellite with large scale antenna in space thermal environment

The attitude precision requirement for satellite with large scale antenna is increasingly higher with progress of space missions. In the space environment, the drastic changes of temperature not only excite thermal vibration of antenna but also change the mode shapes and nature frequencies significantly. Under these circumstances, in order to improve satellite attitude precision, an adaptive attitude maneu-ver control scheme is proposed for the attitude tracking task in this paper. Firstly, a novel robust input shaper is designed based on impulse vector diagrams for vibration suppression. Secondly, an adaptive terminal sliding mode controller with radial basis function neu-ral network and anti-windup modular is proposed and the stability is proved by Lyapunov theorem. The effectiveness of the control scheme is validated under different space thermal environments. The antenna vibration is suppressed effectively and the attitude maneu-vering can be achieved in a finite time, when the mode shapes and nature frequencies of antenna change in a wide range with temperature.(c) 2022 COSPAR. Published by Elsevier B.V. All rights reserved.

Automated summary

This paper proposes an adaptive attitude maneuver control scheme to improve the attitude precision of satellites with large-scale antennas. A novel robust input shaper is designed to suppress vibration, and an adaptive terminal sliding mode controller with radial basis function neural network is utilized for attitude tracking. The effectiveness of the proposed control scheme is validated under different space thermal environments.