International Journal of Control, Automation, and Systems 2024; 22(11): 3482-3498
https://doi.org/10.1007/s12555-024-0492-1
© The International Journal of Control, Automation, and Systems
This paper addresses the problem of leader-follower consistency control for high-order nonlinear multiagent systems affected by time-varying bounded communication faults and actuator faults. First, an estimator is designed for each follower to address certain followers’ unawareness of the leader system coefficient matrix. Further, an event-triggered communication mechanism is designed to reduce the communication burden among agents. Then state observers for both the leader and followers are designed. Afterwards, a distributed control strategy is proposed utilizing observation information and backstepping technology to ensure that the system can achieve the leader-follower consistency control under time-varying bounded communication faults and actuator faults. The stability of the leader-follower control system is proved using Lyapunov theory, while the Zeno behavior can be excluded for each agent. Finally, the effectiveness of the proposed distributed control strategy is verified by a simulation example.
Keywords Actuator faults, backstepping control, distributed control, nonlinear multi-agent systems, time-varying communication faults.
International Journal of Control, Automation, and Systems 2024; 22(11): 3482-3498
Published online November 1, 2024 https://doi.org/10.1007/s12555-024-0492-1
Copyright © The International Journal of Control, Automation, and Systems.
Leyi Zheng and Yimin Zhou*
Chinese Academy Sciences
This paper addresses the problem of leader-follower consistency control for high-order nonlinear multiagent systems affected by time-varying bounded communication faults and actuator faults. First, an estimator is designed for each follower to address certain followers’ unawareness of the leader system coefficient matrix. Further, an event-triggered communication mechanism is designed to reduce the communication burden among agents. Then state observers for both the leader and followers are designed. Afterwards, a distributed control strategy is proposed utilizing observation information and backstepping technology to ensure that the system can achieve the leader-follower consistency control under time-varying bounded communication faults and actuator faults. The stability of the leader-follower control system is proved using Lyapunov theory, while the Zeno behavior can be excluded for each agent. Finally, the effectiveness of the proposed distributed control strategy is verified by a simulation example.
Keywords: Actuator faults, backstepping control, distributed control, nonlinear multi-agent systems, time-varying communication faults.
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