Sliding mode control for multi-agent systems under a time-varying topology

Lijing Dong; Senchun Chai; Baihai Zhang; Sing Kiong Nguang

doi:10.1080/00207721.2014.979335

Sliding mode control for multi-agent systems under a time-varying topology

Lijing Dong, Senchun Chai^*, Baihai Zhang, Sing Kiong Nguang

^*Corresponding author for this work

School of Automation

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

23 Citations (Scopus)

Abstract

This paper addresses the tracking problem of a class of multi-agent systems under uncertain communication environments which has been modelled by a finite number of constant Laplacian matrices together with their corresponding scheduling functions. Sliding mode control method is applied to solve this nonlinear tracking problem under a time-varying topology. The controller of each tracking agent has been designed by using only its own and neighbours information. Sufficient conditions for the existence of a sliding mode control tracking strategy have been provided by the solvability of linear matrix inequalities. At the end of this work, numerical simulations are employed to demonstrate the effectiveness of the proposed sliding mode control tracking strategy.

Original language	English
Pages (from-to)	2193-2200
Number of pages	8
Journal	International Journal of Systems Science
Volume	47
Issue number	9
DOIs	https://doi.org/10.1080/00207721.2014.979335
Publication status	Published - 3 Jul 2016

Keywords

multi-agent systems
sliding mode control
time-varying topology
tracking strategy

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10.1080/00207721.2014.979335

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title = "Sliding mode control for multi-agent systems under a time-varying topology",

abstract = "This paper addresses the tracking problem of a class of multi-agent systems under uncertain communication environments which has been modelled by a finite number of constant Laplacian matrices together with their corresponding scheduling functions. Sliding mode control method is applied to solve this nonlinear tracking problem under a time-varying topology. The controller of each tracking agent has been designed by using only its own and neighbours information. Sufficient conditions for the existence of a sliding mode control tracking strategy have been provided by the solvability of linear matrix inequalities. At the end of this work, numerical simulations are employed to demonstrate the effectiveness of the proposed sliding mode control tracking strategy.",

keywords = "multi-agent systems, sliding mode control, time-varying topology, tracking strategy",

author = "Lijing Dong and Senchun Chai and Baihai Zhang and Nguang, {Sing Kiong}",

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AU - Dong, Lijing

AU - Chai, Senchun

AU - Zhang, Baihai

AU - Nguang, Sing Kiong

PY - 2016/7/3

Y1 - 2016/7/3

N2 - This paper addresses the tracking problem of a class of multi-agent systems under uncertain communication environments which has been modelled by a finite number of constant Laplacian matrices together with their corresponding scheduling functions. Sliding mode control method is applied to solve this nonlinear tracking problem under a time-varying topology. The controller of each tracking agent has been designed by using only its own and neighbours information. Sufficient conditions for the existence of a sliding mode control tracking strategy have been provided by the solvability of linear matrix inequalities. At the end of this work, numerical simulations are employed to demonstrate the effectiveness of the proposed sliding mode control tracking strategy.

AB - This paper addresses the tracking problem of a class of multi-agent systems under uncertain communication environments which has been modelled by a finite number of constant Laplacian matrices together with their corresponding scheduling functions. Sliding mode control method is applied to solve this nonlinear tracking problem under a time-varying topology. The controller of each tracking agent has been designed by using only its own and neighbours information. Sufficient conditions for the existence of a sliding mode control tracking strategy have been provided by the solvability of linear matrix inequalities. At the end of this work, numerical simulations are employed to demonstrate the effectiveness of the proposed sliding mode control tracking strategy.

KW - multi-agent systems

KW - sliding mode control

KW - time-varying topology

KW - tracking strategy

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JF - International Journal of Systems Science

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ER -

Sliding mode control for multi-agent systems under a time-varying topology

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Keywords

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