首页|Robust adaptive event-triggered fault-tolerant control for time-varying systems against perturbations and faulty actuators
Robust adaptive event-triggered fault-tolerant control for time-varying systems against perturbations and faulty actuators
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NSTL
Elsevier
In this paper, the robust adaptive event-triggered fault-tolerant control (FTC) problem is addressed for a time-varying continuous-time system with perturbations and general actuator failures. In order to eliminate the adverse effects of faults and perturbations on system performance, a robust fault-tolerant controller is derived via integrating direct adaptive control technique to adjust control parameters. For the sake of reducing the communication resources and actuator actions, an event-triggered control technique is presented to adjust the control inputs based on the proposed FTC strategy. To ensure the system is free from Zeno phenomenon, a bound on the inter-event execution time is established. On the basis of the event-trigger condition, the uniformly bounded stability results of the adaptive FTC system are obtained by utilizing Lyapunov stability theory in the presence of actuator failures and perturbations. The superior of the developed control strategy is substantiated by simulation results of a rocket fairing system.(c) 2022 Elsevier Inc. All rights reserved.
Adaptive fault-tolerant controlStabilityEvent-triggered controlPerturbationsLINEAR-SYSTEMSTRACKING CONTROL
NSTL
Elsevier
