Predefined-time practical consensus for multi-agent systems via event-triggered control

Xia Chen; Qianqian Sun; Hao Yu; Fei Hao

doi:10.1016/j.jfranklin.2023.01.001

Predefined-time practical consensus for multi-agent systems via event-triggered control

Xia Chen^*, Qianqian Sun, Hao Yu, Fei Hao

^*Corresponding author for this work

School of Automation

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

23 Citations (Scopus)

Abstract

This paper studies the predefined-time practical consensus problem for multiple single-integrator systems through event-triggered control. A new kind of time-varying functions is firstly proposed. Then, new event-triggered control inputs as well as triggering conditions are designed on the basis of the time-varying function and the local broadcasted states. In particular, the control scheme is fully-distributed because no global information of the system and the communication topology is needed. Furthermore, the consensus analysis is presented based on a sufficient condition for predefined-time practical stability. It illustrates that practical consensus can be ensured with a completely pre-specified time. Besides, the exclusion of Zeno behavior at all the time instants is addressed. Numerical results verify the validity of the obtained control method.

Original language	English
Pages (from-to)	2116-2132
Number of pages	17
Journal	Journal of the Franklin Institute
Volume	360
Issue number	3
DOIs	https://doi.org/10.1016/j.jfranklin.2023.01.001
Publication status	Published - Feb 2023

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Chen, X., Sun, Q., Yu, H., & Hao, F. (2023). Predefined-time practical consensus for multi-agent systems via event-triggered control. Journal of the Franklin Institute, 360(3), 2116-2132. https://doi.org/10.1016/j.jfranklin.2023.01.001

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abstract = "This paper studies the predefined-time practical consensus problem for multiple single-integrator systems through event-triggered control. A new kind of time-varying functions is firstly proposed. Then, new event-triggered control inputs as well as triggering conditions are designed on the basis of the time-varying function and the local broadcasted states. In particular, the control scheme is fully-distributed because no global information of the system and the communication topology is needed. Furthermore, the consensus analysis is presented based on a sufficient condition for predefined-time practical stability. It illustrates that practical consensus can be ensured with a completely pre-specified time. Besides, the exclusion of Zeno behavior at all the time instants is addressed. Numerical results verify the validity of the obtained control method.",

author = "Xia Chen and Qianqian Sun and Hao Yu and Fei Hao",

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AB - This paper studies the predefined-time practical consensus problem for multiple single-integrator systems through event-triggered control. A new kind of time-varying functions is firstly proposed. Then, new event-triggered control inputs as well as triggering conditions are designed on the basis of the time-varying function and the local broadcasted states. In particular, the control scheme is fully-distributed because no global information of the system and the communication topology is needed. Furthermore, the consensus analysis is presented based on a sufficient condition for predefined-time practical stability. It illustrates that practical consensus can be ensured with a completely pre-specified time. Besides, the exclusion of Zeno behavior at all the time instants is addressed. Numerical results verify the validity of the obtained control method.

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Predefined-time practical consensus for multi-agent systems via event-triggered control

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