1. Iterative learning fault-tolerant control for discrete-time nonlinear systems subject to stochastic actuator faults.
- Author
-
Yang, Xuan, Ruan, Xiaoe, and Geng, Yan
- Subjects
ITERATIVE learning control ,NONLINEAR systems ,STOCHASTIC systems ,ACTUATORS ,DISCRETE-time systems - Abstract
This paper is concerned with an iterative learning fault-tolerant control strategy for discrete-time nonlinear systems where actuator faults arbitrarily occur. First, the stochastic faults occurring in multiplicative and additive manner are considered. Then, statistical behaviors of both faults-corrupted control signals from the actuator to the plant and faults-free ones from the iterative learning controller to the actuator are analyzed. Meanwhile, sufficient conditions of convergence for the proposed strategy are established by resorting to the time-weighted norm technique. Finally, two numerical examples are provided to illustrate the effectiveness and reliability of the proposed results. Both theoretical analysis and simulations indicate that the developed strategy is satisfactory in preserving decent tracking accuracy of the addressed systems subject to actuator faults. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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