Adaptive containment control of coupled linear systems with parameter uncertainties

Yu Zhao; Guanghui Wen; Zhongkui Li; Zhisheng Duan

doi:10.1109/ICCA.2013.6564998

Adaptive containment control of coupled linear systems with parameter uncertainties

Yu Zhao, Guanghui Wen, Zhongkui Li, Zhisheng Duan

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

6 Scopus citations

Abstract

This paper studies the containment control problem of uncertain multi-agent systems with multiple dynamic leaders by using an adaptive approach. It is assumed that leaders' states are predesigned to be bounded with unknown reference inputs. A new adaptive protocol, based only on the relative states of neighbors, is designed to make the states of the followers converge to the convex hull formed by the multiple leaders. By utilizing tools from non-smooth analysis and matrix theory, it is proved that the followers can asymptotically move into the convex hull if there exists at least one leader that has a directed path to each follower. Finally, a numerical example is provided to illustrate the effectiveness of the theoretical results.

Original language	English
Title of host publication	2013 10th IEEE International Conference on Control and Automation, ICCA 2013
Pages	1154-1159
Number of pages	6
DOIs	https://doi.org/10.1109/ICCA.2013.6564998
State	Published - 2013
Externally published	Yes
Event	2013 10th IEEE International Conference on Control and Automation, ICCA 2013 - Hangzhou, China Duration: 12 Jun 2013 → 14 Jun 2013

Publication series

Name	IEEE International Conference on Control and Automation, ICCA
ISSN (Print)	1948-3449
ISSN (Electronic)	1948-3457

Conference

Conference	2013 10th IEEE International Conference on Control and Automation, ICCA 2013
Country/Territory	China
City	Hangzhou
Period	12/06/13 → 14/06/13

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10.1109/ICCA.2013.6564998

Cite this

@inproceedings{17b5585e2cbc4339a964bbc035bb4988,

title = "Adaptive containment control of coupled linear systems with parameter uncertainties",

abstract = "This paper studies the containment control problem of uncertain multi-agent systems with multiple dynamic leaders by using an adaptive approach. It is assumed that leaders' states are predesigned to be bounded with unknown reference inputs. A new adaptive protocol, based only on the relative states of neighbors, is designed to make the states of the followers converge to the convex hull formed by the multiple leaders. By utilizing tools from non-smooth analysis and matrix theory, it is proved that the followers can asymptotically move into the convex hull if there exists at least one leader that has a directed path to each follower. Finally, a numerical example is provided to illustrate the effectiveness of the theoretical results.",

author = "Yu Zhao and Guanghui Wen and Zhongkui Li and Zhisheng Duan",

year = "2013",

doi = "10.1109/ICCA.2013.6564998",

language = "英语",

isbn = "9781467347075",

series = "IEEE International Conference on Control and Automation, ICCA",

pages = "1154--1159",

booktitle = "2013 10th IEEE International Conference on Control and Automation, ICCA 2013",

note = "2013 10th IEEE International Conference on Control and Automation, ICCA 2013 ; Conference date: 12-06-2013 Through 14-06-2013",

}

Zhao, Y, Wen, G, Li, Z & Duan, Z 2013, Adaptive containment control of coupled linear systems with parameter uncertainties. in 2013 10th IEEE International Conference on Control and Automation, ICCA 2013., 6564998, IEEE International Conference on Control and Automation, ICCA, pp. 1154-1159, 2013 10th IEEE International Conference on Control and Automation, ICCA 2013, Hangzhou, China, 12/06/13. https://doi.org/10.1109/ICCA.2013.6564998

Adaptive containment control of coupled linear systems with parameter uncertainties. / Zhao, Yu; Wen, Guanghui; Li, Zhongkui et al.
2013 10th IEEE International Conference on Control and Automation, ICCA 2013. 2013. p. 1154-1159 6564998 (IEEE International Conference on Control and Automation, ICCA).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Adaptive containment control of coupled linear systems with parameter uncertainties

AU - Zhao, Yu

AU - Wen, Guanghui

AU - Li, Zhongkui

AU - Duan, Zhisheng

PY - 2013

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N2 - This paper studies the containment control problem of uncertain multi-agent systems with multiple dynamic leaders by using an adaptive approach. It is assumed that leaders' states are predesigned to be bounded with unknown reference inputs. A new adaptive protocol, based only on the relative states of neighbors, is designed to make the states of the followers converge to the convex hull formed by the multiple leaders. By utilizing tools from non-smooth analysis and matrix theory, it is proved that the followers can asymptotically move into the convex hull if there exists at least one leader that has a directed path to each follower. Finally, a numerical example is provided to illustrate the effectiveness of the theoretical results.

AB - This paper studies the containment control problem of uncertain multi-agent systems with multiple dynamic leaders by using an adaptive approach. It is assumed that leaders' states are predesigned to be bounded with unknown reference inputs. A new adaptive protocol, based only on the relative states of neighbors, is designed to make the states of the followers converge to the convex hull formed by the multiple leaders. By utilizing tools from non-smooth analysis and matrix theory, it is proved that the followers can asymptotically move into the convex hull if there exists at least one leader that has a directed path to each follower. Finally, a numerical example is provided to illustrate the effectiveness of the theoretical results.

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DO - 10.1109/ICCA.2013.6564998

M3 - 会议稿件

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BT - 2013 10th IEEE International Conference on Control and Automation, ICCA 2013

T2 - 2013 10th IEEE International Conference on Control and Automation, ICCA 2013

Y2 - 12 June 2013 through 14 June 2013

ER -

Adaptive containment control of coupled linear systems with parameter uncertainties

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