Active fault tolerant control scheme for satellite attitude system subject to actuator time-varying faults

• Published in: IET control theory & applications Vol. 12; no. 3; pp. 405 - 412
• Main Authors: Gao, Zhifeng, Zhou, Zepeng, Qian, Moshu S, Lin, Jinxing
• Format: Journal Article
• Language: English
• Published: The Institution of Engineering and Technology 13.02.2018
• Subjects: active fault tolerant control; actuator time‐varying faults; adaptive control; adaptive control theory; adaptive nonlinear fault estimation observer; artificial satellites; asymptotic stability; attitude control; backstepping control; Brief Paper; closed loop systems; closed‐loop attitude system; control nonlinearities; exogenous disturbance; fault tolerant control; FTC; in‐orbit satellite; Lyapunov methods; Lyapunov theory; observers; parameter uncertainty; perturbation; perturbation theory; robust asymptotic stability; satellite attitude system; robust asymptotic stability; perturbation; actuator time-varying faults; adaptive control; Lyapunov theory; asymptotic stability; adaptive nonlinear fault estimation observer; in-orbit satellite; backstepping control; closed loop systems; closed-loop attitude system; artificial satellites; perturbation theory; FTC; adaptive control theory; satellite attitude system; control nonlinearities; parameter uncertainty; active fault tolerant control; attitude control; exogenous disturbance; observers; fault tolerant control; Lyapunov methods
• ISSN: 1751-8644; 1751-8652
• DOI: 10.1049/iet-cta.2017.0969

This study investigates the active fault tolerant control (FTC) problem for the attitude system of a rigid satellite, which is affected by parameter uncertainty, unknown exogenous disturbance and actuator time-varying faults. The upper bounds of the actuator time-varying fault and the generalised perturbation are unknown. A novel adaptive non-linear fault estimation observer is designed in order to obtain the estimated value of unknown time-varying faults. Then, an active fault tolerant attitude control approach is proposed under the framework of both backstepping control and adaptive control theory. Consequently, the Lyapunov theory is used to prove the robust asymptotic stability for the closed-loop attitude system of a faulty satellite under the proposed FTC scheme. Finally, simulation results on an in-orbit rigid satellite are provided to show the good fault tolerant performance, which validate the effectiveness and feasibility of the proposed scheme.