Designing Distributed Specified-Time Consensus Protocols for Linear Multiagent Systems over Directed Graphs

Yu Zhao; Yongfang Liu; Guanghui Wen; Wei Ren; Guanrong Chen

doi:10.1109/TAC.2018.2872534

Designing Distributed Specified-Time Consensus Protocols for Linear Multiagent Systems over Directed Graphs

Yu Zhao, Yongfang Liu, Guanghui Wen, Wei Ren, Guanrong Chen

School of Automation

Research output: Contribution to journal › Article › peer-review

191 Scopus citations

Abstract

This technical note addresses the distributed specified-Time consensus protocol design problem for multiagent systems with general linear dynamics over directed graphs. By using motion planning approaches, a novel class of distributed consensus protocols are developed. With a prespecified settling time, the proposed protocols solve the consensus problem of linear multiagent systems over directed graphs containing a directed spanning tree. In particular, the settling time can be offline prespecified, according to task requirements. Compared with the existing results for multiagent systems, to our best knowledge, this is the first time specified-Time consensus problems are raised and solved for general linear multiagent systems over directed graphs. Extensions to the specified-Time formation flying are further studied for multiple satellites described by Hill equations.

Original language	English
Article number	8477096
Pages (from-to)	2945-2952
Number of pages	8
Journal	IEEE Transactions on Automatic Control
Volume	64
Issue number	7
DOIs	https://doi.org/10.1109/TAC.2018.2872534
State	Published - Jul 2019

Keywords

Directed spanning tree
distributed protocol
linear multiagent system
specified-Time consensus

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10.1109/TAC.2018.2872534

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title = "Designing Distributed Specified-Time Consensus Protocols for Linear Multiagent Systems over Directed Graphs",

abstract = "This technical note addresses the distributed specified-Time consensus protocol design problem for multiagent systems with general linear dynamics over directed graphs. By using motion planning approaches, a novel class of distributed consensus protocols are developed. With a prespecified settling time, the proposed protocols solve the consensus problem of linear multiagent systems over directed graphs containing a directed spanning tree. In particular, the settling time can be offline prespecified, according to task requirements. Compared with the existing results for multiagent systems, to our best knowledge, this is the first time specified-Time consensus problems are raised and solved for general linear multiagent systems over directed graphs. Extensions to the specified-Time formation flying are further studied for multiple satellites described by Hill equations.",

keywords = "Directed spanning tree, distributed protocol, linear multiagent system, specified-Time consensus",

author = "Yu Zhao and Yongfang Liu and Guanghui Wen and Wei Ren and Guanrong Chen",

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PY - 2019/7

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AB - This technical note addresses the distributed specified-Time consensus protocol design problem for multiagent systems with general linear dynamics over directed graphs. By using motion planning approaches, a novel class of distributed consensus protocols are developed. With a prespecified settling time, the proposed protocols solve the consensus problem of linear multiagent systems over directed graphs containing a directed spanning tree. In particular, the settling time can be offline prespecified, according to task requirements. Compared with the existing results for multiagent systems, to our best knowledge, this is the first time specified-Time consensus problems are raised and solved for general linear multiagent systems over directed graphs. Extensions to the specified-Time formation flying are further studied for multiple satellites described by Hill equations.

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Designing Distributed Specified-Time Consensus Protocols for Linear Multiagent Systems over Directed Graphs

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