Intermittent Sampled Data Control for Time-Varying Formation-Containment of the Multiagent System with/without Time Delay

Intermittent Sampled Data Control for Time-Varying Formation-Containment of the Multiagent System with/without Time Delay

Time-varying formation-containment problems for a second-order multiagent system (SOMAS) are studied via pulse-modulated intermittent control (PMIC) in this paper. A distributed control framework utilizing the neighbors’ positions and velocities is designed so that leaders in the multiagent system f...

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Main Authors: Ming Chi, Xu-Long Wang, Yangming Dou, Zhi-Wei Liu
Format: Article
Language:English
Published: Hindawi-Wiley 2021-01-01
Series:Complexity
Online Access:http://dx.doi.org/10.1155/2021/9971855
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spelling doaj-9ea01adb841b4426b26a7b7d42976d382021-05-17T00:01:25ZengHindawi-WileyComplexity1099-05262021-01-01202110.1155/2021/9971855Intermittent Sampled Data Control for Time-Varying Formation-Containment of the Multiagent System with/without Time DelayMing Chi0Xu-Long Wang1Yangming Dou2Zhi-Wei Liu3School of Artificial Intelligence and AutomationSchool of Artificial Intelligence and AutomationSchool of Artificial Intelligence and AutomationSchool of Artificial Intelligence and AutomationTime-varying formation-containment problems for a second-order multiagent system (SOMAS) are studied via pulse-modulated intermittent control (PMIC) in this paper. A distributed control framework utilizing the neighbors’ positions and velocities is designed so that leaders in the multiagent system form a formation, and followers move to the convex hull formed by each leader. Different from the traditional formation-containment problems, this paper applies the PMIC framework, which is more common and more in line with the actual control scenarios. Based on the knowledge of matrix theory, algebraic graph theory, and stability theory, some sufficient conditions are given for the time-varying formation-containment problem of the second-order multiagent system. Some numerical simulations are proposed to verify the effectiveness of the results presented in this paper.http://dx.doi.org/10.1155/2021/9971855
collection DOAJ
language English
format Article
sources DOAJ
author Ming Chi
Xu-Long Wang
Yangming Dou
Zhi-Wei Liu
spellingShingle Ming Chi
Xu-Long Wang
Yangming Dou
Zhi-Wei Liu
Intermittent Sampled Data Control for Time-Varying Formation-Containment of the Multiagent System with/without Time Delay
Complexity
author_facet Ming Chi
Xu-Long Wang
Yangming Dou
Zhi-Wei Liu
author_sort Ming Chi
title Intermittent Sampled Data Control for Time-Varying Formation-Containment of the Multiagent System with/without Time Delay
title_short Intermittent Sampled Data Control for Time-Varying Formation-Containment of the Multiagent System with/without Time Delay
title_full Intermittent Sampled Data Control for Time-Varying Formation-Containment of the Multiagent System with/without Time Delay
title_fullStr Intermittent Sampled Data Control for Time-Varying Formation-Containment of the Multiagent System with/without Time Delay
title_full_unstemmed Intermittent Sampled Data Control for Time-Varying Formation-Containment of the Multiagent System with/without Time Delay
title_sort intermittent sampled data control for time-varying formation-containment of the multiagent system with/without time delay
publisher Hindawi-Wiley
series Complexity
issn 1099-0526
publishDate 2021-01-01
description Time-varying formation-containment problems for a second-order multiagent system (SOMAS) are studied via pulse-modulated intermittent control (PMIC) in this paper. A distributed control framework utilizing the neighbors’ positions and velocities is designed so that leaders in the multiagent system form a formation, and followers move to the convex hull formed by each leader. Different from the traditional formation-containment problems, this paper applies the PMIC framework, which is more common and more in line with the actual control scenarios. Based on the knowledge of matrix theory, algebraic graph theory, and stability theory, some sufficient conditions are given for the time-varying formation-containment problem of the second-order multiagent system. Some numerical simulations are proposed to verify the effectiveness of the results presented in this paper.
url http://dx.doi.org/10.1155/2021/9971855
work_keys_str_mv AT mingchi intermittentsampleddatacontrolfortimevaryingformationcontainmentofthemultiagentsystemwithwithouttimedelay
AT xulongwang intermittentsampleddatacontrolfortimevaryingformationcontainmentofthemultiagentsystemwithwithouttimedelay
AT yangmingdou intermittentsampleddatacontrolfortimevaryingformationcontainmentofthemultiagentsystemwithwithouttimedelay
AT zhiweiliu intermittentsampleddatacontrolfortimevaryingformationcontainmentofthemultiagentsystemwithwithouttimedelay
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