Finite time consensus for leader following multiagent system with distributed observer design

V. S. Lahire, J. Chandle, V. D. Dhaigude, A. Šuste
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引用次数: 5

Abstract

This paper is concerned with a finite time consensus for a multi-agent system designed by distributed observer and pinning control technique without assuming that the interaction graph is connected. Distributed observers are designed for the second-order follower-agents, under the common assumption that the velocity of the active leader cannot be measured in real time. Some dynamic neighbor-based rules and protocols, consisting of distributed controllers and observers for the autonomous agents, are developed to keep updating the information of the leader. Also it is proved that each agent can follow the active leader using common Lyapunov function (CLF). Finally, a numerical example is given for illustration.
分布式观测器设计下领导者跟随多智能体系统的有限时间一致性
研究了在不假设交互图连通的情况下,采用分布式观测器和钉住控制技术设计的多智能体系统的有限时间一致性问题。分布式观测器是针对二阶follower-agent设计的,通常假设主动leader的速度无法实时测量。开发了一些动态的基于邻居的规则和协议,包括分布式控制器和自治代理的观察者,以保持领导者信息的更新。利用公共Lyapunov函数(CLF)证明了每个agent都能跟随主动leader。最后给出了一个数值算例。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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