Fixed-time active fault-tolerant control for dynamical systems with intermittent faults and unknown disturbances

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-09-11 DOI:10.1016/j.amc.2024.129054
Xuanrui Cheng , Ming Gao , Wuxiang Huai , Yichun Niu , Li Sheng
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Abstract

In this article, the problem of fixed-time active fault-tolerant control is investigated for dynamical linear systems with intermittent faults and unknown disturbances. Unlike traditional active fault-tolerant control, fixed-time control is taken into account in this article since intermittent faults appear and disappear within a certain period of time. The entire active fault-tolerant control framework is composed of fault detection, fault isolation, fault and state estimation as well as the reconfigurable controller. Using the homogeneity-based observers, states and faults are well estimated and a fault diagnosis scheme is proposed for the sake of detecting and isolating intermittent faults in a fixed time. The fault-tolerant controller, which provides global practical fixed-time stability of the closed-loop system, has two switching states corresponding to the appearance and disappearance of intermittent faults. As a consequence, intermittent faults are compensated via the designed active fault-tolerant control method and the system reaches practical stability with the entire convergence time bounded in a fixed time. Finally, two examples are exploited to demonstrate the effectiveness of theoretical results.

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具有间歇性故障和未知干扰的动力系统的固定时间主动容错控制
本文研究了具有间歇性故障和未知干扰的动态线性系统的固定时间主动容错控制问题。与传统的主动容错控制不同,本文考虑了固定时间控制,因为间歇性故障在一定时间内出现和消失。整个主动容错控制框架由故障检测、故障隔离、故障和状态估计以及可重构控制器组成。利用基于同质性的观测器,可以很好地估计状态和故障,并提出一种故障诊断方案,以便在固定时间内检测和隔离间歇性故障。容错控制器为闭环系统提供了全局实际固定时间稳定性,它有两个切换状态,分别对应于间歇性故障的出现和消失。因此,间歇性故障可通过所设计的主动容错控制方法得到补偿,系统达到实用稳定性,整个收敛时间被限定在固定时间内。最后,通过两个实例证明了理论结果的有效性。
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7.20
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4.30%
发文量
567
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