Adaptive sliding mode fault-tolerant control for satellite attitude tracking system |
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Affiliation: | Faculty of Electrical & Computer Engineering, Malek Ashtar University of Technology, Iran |
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Abstract: | In this paper, an adaptive modified sliding mode control approach is developed for attitude tracking of a nano-satellite with three magnetorquers and one reaction wheel. A sliding variable is chosen based on finite-time convergence of the nano-satellite attitude tracking error and avoiding the singularity of the control signal. The control gain of the proposed method is developed adaptively to reduce the tracking error and improve the closed-loop control performance. The sliding variable and adaptive parameter are also employed in the reaching phase of the control law to decrease the chattering phenomenon. In addition, the finite-time convergence of attitude variables in the presence of actuator faults, inertia uncertainty, and external disturbances is proved using the extended Lyapunov theorem. The simulations are conducted to evaluate the performance of the proposed method according to different evaluation criteria. Monte Carlo simulations are also used to survey the reliability of the system in the presence of the mentioned condition. |
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Keywords: | Satellite attitude tracking Fault-tolerant control Adaptive sliding mode control Actuator faults Reaction wheel Magnetorquer |
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