基于分布式协议的二阶多智能体系统最优一致性

IEEE Transactions on Systems Man and Cybernetics Part A-Systems and Humans Pub Date : 2021-10-01 DOI:10.1109/TSMC.2019.2959394

Hui Sun, Yungang Liu, Fengzhong Li

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引用次数: 9

摘要

研究了二阶多智能体系统的领导-跟随共识的最优协议。值得注意的是，该算法预先给出了全局共识代价函数和有向拓扑，并对所要寻找的最优协议进行了分布式处理。这使得基于riccati的策略不适用，通过该策略只能导出集中式协议。作为本文的主要贡献，本文提出了一种在有向树有向图上寻找二阶智能体分布式最优协议的有效策略。首先肯定了分布式最优协议的可行性，即可以保证最优增益参数的存在性。然后，通过递归推导出相对位置和速度一致性误差的完全显式公式，开发了一种在线可实现的算法，实现了代价函数的参数化，即得到代价函数相对于所有agent的增益参数的显式公式。最后，通过对显式公式的最小化，得到所需的最优增益参数。

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Optimal Consensus via Distributed Protocol for Second-Order Multiagent Systems

This article is devoted to the optimal protocol for the leader-following consensus of second-order multiagent systems. Remarkably, the global consensus cost functional and the directed topology are pregiven, and the optimal protocol to be sought is distributed. This makes the Riccati-based strategies inapplicable, by which merely centralized protocol can be derived. As the main contribution of this article, an effective strategy of seeking a distributed optimal protocol is proposed for second-order agents over the digraph of the directed tree. Detailedly, the feasibility of distributed optimal protocol is first affirmed, that is, the existence of optimal gain parameters can be guaranteed. Then, by recursively deriving the completely explicit formulas of the consensus errors of relative position and velocity, an online implementable algorithm is developed to achieve the parameterization of the cost functional, that is, to obtain the explicit formula of the cost functional with respect to gain parameters of all agents. Lastly, the desired optimal gain parameters are obtained by minimizing the explicit formula.

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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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0.00%

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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.