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Synthesis and L2‐gain analysis for switched systems under event‐triggered switching

In this paper, we solve the stabilization problem of linear switched systems subject to external disturbances via an event‐based state‐dependent switching strategy. The proposed event‐triggered switching rule can relax the conditions which guarantee the stability of switched systems so as to attain...

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Published in:	Asian journal of control 2022-05, Vol.24 (3), p.1247-1260
Main Authors:	Li, Dandan, Zuo, Zhiqiang, Fu, Minyue, Wang, Yijing
Format:	Article
Language:	English
Subjects:	Disturbances Event‐triggering scheme L2 analysis L2 gain State‐dependent switching Switching Zeno behavior
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container_title	Asian journal of control
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creator	Li, Dandan Zuo, Zhiqiang Fu, Minyue Wang, Yijing
description	In this paper, we solve the stabilization problem of linear switched systems subject to external disturbances via an event‐based state‐dependent switching strategy. The proposed event‐triggered switching rule can relax the conditions which guarantee the stability of switched systems so as to attain more feasible solutions than the previous work. As a result, a better bound of L2 gain performance of the system is obtained over the set of admissible disturbances. The elimination of Zeno behavior for state‐dependent switched system is also proven. Finally, numerical simulations illustrate the validity of the proposed theoretical results.
doi_str_mv	10.1002/asjc.2511
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source	Wiley
subjects	Disturbances Event‐triggering scheme L2 analysis L2 gain State‐dependent switching Switching Zeno behavior
title	Synthesis and L2‐gain analysis for switched systems under event‐triggered switching
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