Consensus of Multiagent Systems With Relative State Saturations

IEEE Transactions on Systems Man and Cybernetics Part A-Systems and Humans Pub Date : 2021-04-01 DOI:10.1109/TSMC.2019.2912980

Hongjun Chu, D. Yue, Lixin Gao, Xiangjing Lai

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引用次数: 12

Abstract

Within the multiagent systems framework, the relative states between neighbors can be acquired by some on-board sensors, and then the relative state saturations inevitably occur due to the limited sensing capabilities. This paper investigates the consensus problem of nonlinear multiagent systems subject to the relative state saturations. Utilizing the incidence matrix and the edge Laplacian, the consensus problem of nonlinear multiagent systems with the relative state saturations can be cast into the stabilization problem of edge dynamics operating on the constrained set. Three types of protocols, namely continuous, intermittent, and adaptive state feedback protocols are, respectively, proposed for achieving the constrained consensus, and meanwhile yielding consensus values. A consensus analysis is provided by virtue of state saturation theory, switched system theory, adaptive theory, and Lyapunov stability theory. Output feedback protocol is also designed. Finally, the obtained results are applied to connectivity preservation for first-order nonlinear multiagent systems, despite the presence of limited communication range and input constraints. The theoretical results are validated by two simulation examples.

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具有相对状态饱和的多智能体系统的一致性

在多智能体系统框架下，一些车载传感器可以获取邻居之间的相对状态，但由于感知能力有限，不可避免地会出现相对状态饱和。研究了具有相对状态饱和的非线性多智能体系统的一致性问题。利用关联矩阵和边缘拉普拉斯算子，将具有相对状态饱和的非线性多智能体系统的一致性问题转化为作用于约束集上的边缘动力学镇定问题。分别提出了连续、间歇和自适应状态反馈协议三种类型的协议来实现约束共识，同时产生共识值。利用状态饱和理论、切换系统理论、自适应理论和李亚普诺夫稳定性理论进行了一致性分析。设计了输出反馈协议。最后，将所得结果应用于一阶非线性多智能体系统的连通性保持，尽管存在有限的通信范围和输入约束。通过两个仿真算例验证了理论结果。

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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来源期刊

IEEE Transactions on Systems Man and Cybernetics Part A-Systems and Humans 工程技术-计算机：控制论

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审稿时长

6.0 months

期刊介绍： The scope of the IEEE Transactions on Systems, Man, and Cybernetics: Systems includes the fields of systems engineering. It includes issue formulation, analysis and modeling, decision making, and issue interpretation for any of the systems engineering lifecycle phases associated with the definition, development, and deployment of large systems. In addition, it includes systems management, systems engineering processes, and a variety of systems engineering methods such as optimization, modeling and simulation.