Observer-Based Event-Triggered Fuzzy Adaptive Bipartite Containment Control of Multiagent Systems with Input Quantization

Qi Zhou; Wei Wang; Hongjing Liang; Michael V. Basin; Bohui Wang

doi:10.1109/TFUZZ.2019.2953573

Observer-Based Event-Triggered Fuzzy Adaptive Bipartite Containment Control of Multiagent Systems with Input Quantization

Qi Zhou
, Wei Wang
, Hongjing Liang
, Michael V. Basin
, Bohui Wang

Guangdong University of Technology
Bohai University
Universidad Autonoma de Nuevo Leon
St. Petersburg National Research University of Information Technologies, Mechanics and Optics (ITMO)
Xidian University

科研成果: 期刊稿件 › 文章 › 同行评审

227 引用（Scopus）

摘要

This article studies the bipartite containment control problem for nonlinear multiagent systems (MASs) with input quantization over a signed digraph. The design objective is to provide an appropriate distributed protocol such that the followers converge to a convex hull containing each leader's trajectory as well as its opposite trajectory different in sign. Based on a nonlinear decomposition approach of input quantization, an event-triggered control scheme is developed via backstepping technique. A fuzzy observer is constructed to estimate unmeasurable states. Moreover, the bipartite containment control scheme for nonlinear MASs is designed. It is demonstrated that all signals in the closed-loop system are semiglobally uniformly ultimately bounded and Zeno behavior is excluded. Finally, a simulation example is given to verify the validity of the designed method.

源语言	英语
文章编号	8902152
页（从-至）	372-384
页数	13
期刊	IEEE Transactions on Fuzzy Systems
卷	29
期	2
DOI	https://doi.org/10.1109/TFUZZ.2019.2953573
出版状态	已出版 - 2月 2021
已对外发布	是

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10.1109/TFUZZ.2019.2953573

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title = "Observer-Based Event-Triggered Fuzzy Adaptive Bipartite Containment Control of Multiagent Systems with Input Quantization",

abstract = "This article studies the bipartite containment control problem for nonlinear multiagent systems (MASs) with input quantization over a signed digraph. The design objective is to provide an appropriate distributed protocol such that the followers converge to a convex hull containing each leader's trajectory as well as its opposite trajectory different in sign. Based on a nonlinear decomposition approach of input quantization, an event-triggered control scheme is developed via backstepping technique. A fuzzy observer is constructed to estimate unmeasurable states. Moreover, the bipartite containment control scheme for nonlinear MASs is designed. It is demonstrated that all signals in the closed-loop system are semiglobally uniformly ultimately bounded and Zeno behavior is excluded. Finally, a simulation example is given to verify the validity of the designed method.",

keywords = "Bipartite containment control, event-triggered mechanism, input quantization, multiagent systems (MASs), unmeasurable states",

author = "Qi Zhou and Wei Wang and Hongjing Liang and Basin, \{Michael V.\} and Bohui Wang",

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AU - Wang, Bohui

PY - 2021/2

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AB - This article studies the bipartite containment control problem for nonlinear multiagent systems (MASs) with input quantization over a signed digraph. The design objective is to provide an appropriate distributed protocol such that the followers converge to a convex hull containing each leader's trajectory as well as its opposite trajectory different in sign. Based on a nonlinear decomposition approach of input quantization, an event-triggered control scheme is developed via backstepping technique. A fuzzy observer is constructed to estimate unmeasurable states. Moreover, the bipartite containment control scheme for nonlinear MASs is designed. It is demonstrated that all signals in the closed-loop system are semiglobally uniformly ultimately bounded and Zeno behavior is excluded. Finally, a simulation example is given to verify the validity of the designed method.

KW - Bipartite containment control

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KW - multiagent systems (MASs)

KW - unmeasurable states

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M3 - 文章

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Observer-Based Event-Triggered Fuzzy Adaptive Bipartite Containment Control of Multiagent Systems with Input Quantization

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