执行机构
容错
控制理论(社会学)
计算机科学
事件(粒子物理)
多智能体系统
分布式计算
观察员(物理)
稳健性(进化)
断层(地质)
故障检测与隔离
电信网络
控制工程
工程类
控制(管理)
计算机网络
人工智能
基因
物理
地质学
地震学
量子力学
化学
生物化学
作者
Pu Zhang,Jialong Zhang,Jianhua Yang,Shan Gao
标识
DOI:10.1109/taes.2022.3221037
摘要
This article investigates the cooperative fault-tolerant tracking problem for multiagent systems with directed topology that experience communication link faults and actuator faults under malicious attacks. Based on a resilient event-triggered mechanism, a novel distributed high-order sliding-mode observer and a robust adaptive cooperative fault-tolerant control method are proposed, which can achieve the desired formation shape tracking under communication limitations and hybrid actuator faults caused by malicious attacks. First, the designed distributed event-triggered observer can estimate the unknown leader. Second, the proposed event-triggered mechanism can be used to reduce the impact of malicious attacks on the information and physical layers of the multiagent system. Additionally, the utilization rate of network communication is further improved so that it can save communication resources by reducing the number of event triggers. Then, based on the information of the leader, the designed robust adaptive cooperative fault-tolerant controller can compensate for the influence of the hybrid actuator faults on the system under malicious attacks. Finally, the effectiveness of the method is verified by two sets of example simulations.
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