Fault-tolerant controller design with connectivity maintenance in fractional-order multi-agent systems using a super-twisting sliding mode algorithm

Franklin Open Pub Date : 2024-09-01 DOI:10.1016/j.fraope.2024.100156

Farshid Aazam Manesh , Mahdi Pourgholi , Elham Amini Boroujeni

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Abstract

This article explores fault analysis in distributed fractional multi-agent systems, specifically addressing fault detection in nonlinear fractional-order multi-agent systems by introducing a sliding surface. To achieve fault detection, we employ a super-twisting sliding mode observer designed for accurate fault estimation within individual agents. Building on this, we present a new fractional-order sliding surface accompanied by a potential function, strategically designed to ensure connectivity maintenance. Drawing on the estimated fault and the fractional-order sliding surface, we propose a fault-tolerant controller. This controller operates within a finite time frame, simultaneously guaranteeing fault tolerance and connectivity maintenance. To demonstrate the effectiveness of our approach, we conduct simulations on three numerical examples. These examples represent heterogeneous systems with both directed and undirected graph topologies, showcasing the versatility and applicability of our proposed methodology.

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使用超扭曲滑模算法，在分数阶多代理系统中设计具有连通性维护功能的容错控制器

本文探讨了分布式分数多代理系统中的故障分析，特别是通过引入滑动面来解决非线性分数阶多代理系统中的故障检测问题。为了实现故障检测，我们采用了一种超扭曲滑模观测器，旨在对单个代理内部的故障进行精确估计。在此基础上，我们提出了一种新的分数阶滑动面，该滑动面附带一个势函数，旨在确保连通性的维持。利用故障估计和分数阶滑动面，我们提出了一种容错控制器。该控制器在有限的时间框架内运行，同时保证容错和连通性维护。为了证明我们方法的有效性，我们对三个数值示例进行了模拟。这些示例代表了有向和无向图拓扑的异构系统，展示了我们提出的方法的多功能性和适用性。

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