International Journal of Control, Automation and Systems 2021; 19(2): 900-909
Published online December 6, 2020
https://doi.org/10.1007/s12555-019-0621-4
© The International Journal of Control, Automation, and Systems
An adaptive actuator failure compensation scheme is proposed for attitude tracking control of spacecraft with unknown disturbances and uncertain actuator failures. A new feature of this adaptive control scheme is the adaptation of the failure pattern parameter estimates, as well as the failure signal parameter estimates, for direct adaptive actuator failure compensation. Based on an adaptive backstepping control design, the estimates of the disturbance parameters are used to solve the disturbance rejection problem. Without the requirement of additional fault detection mechanism, the switching function is designed to automatically locate and turn off the unknown faulty actuators by observing a control performance index. The asymptotic stability of the system output in the presence of actuator failures is rigidly proved through standard Lyapunov approach, while the other signals of the closed-loop system are guaranteed to be bounded. Simulation results verify the desired adaptive actuator failure compensation performance.
Keywords Actuator failure compensation, adaptive control, disturbance estimation, failure pattern, spacecraft, stability and tracking
International Journal of Control, Automation and Systems 2021; 19(2): 900-909
Published online February 1, 2021 https://doi.org/10.1007/s12555-019-0621-4
Copyright © The International Journal of Control, Automation, and Systems.
Zhen Li and Xin Chen*
Nanjing University of Aeronautics and Astronautic
An adaptive actuator failure compensation scheme is proposed for attitude tracking control of spacecraft with unknown disturbances and uncertain actuator failures. A new feature of this adaptive control scheme is the adaptation of the failure pattern parameter estimates, as well as the failure signal parameter estimates, for direct adaptive actuator failure compensation. Based on an adaptive backstepping control design, the estimates of the disturbance parameters are used to solve the disturbance rejection problem. Without the requirement of additional fault detection mechanism, the switching function is designed to automatically locate and turn off the unknown faulty actuators by observing a control performance index. The asymptotic stability of the system output in the presence of actuator failures is rigidly proved through standard Lyapunov approach, while the other signals of the closed-loop system are guaranteed to be bounded. Simulation results verify the desired adaptive actuator failure compensation performance.
Keywords: Actuator failure compensation, adaptive control, disturbance estimation, failure pattern, spacecraft, stability and tracking
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