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Main Authors: Xinyu Zhao, XianQiang Gao, Hao Chen, Zhenzhen Zhang, Shouming Zhong, Lili Shen
Format: Artículo Open Access
Published: Wiley 2024
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Online Access:https://onlinelibrary.wiley.com/doi/10.1002/oca.3209
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author Xinyu Zhao
XianQiang Gao
Hao Chen
Zhenzhen Zhang
Shouming Zhong
Lili Shen
author_facet Xinyu Zhao
XianQiang Gao
Hao Chen
Zhenzhen Zhang
Shouming Zhong
Lili Shen
Xinyu Zhao
XianQiang Gao
Hao Chen
Zhenzhen Zhang
Shouming Zhong
Lili Shen
collection Wiley Open Access
contents Globally exponentially mean‐square stabilization on disturbed networked switched systems using optimized event‐triggered scheme Xinyu Zhao XianQiang Gao Hao Chen Zhenzhen Zhang Shouming Zhong Lili Shen Optimal Control Applications and Methods AbstractThis article is concerned with the globally exponentially mean‐square stabilization problem for uncertain disturbed networked switched systems (NSSs) subject to mixed network attacks and multiple asynchronous switching by exploring an optimized event‐triggered scheme. First, we consider a new challenge of multiple asynchronous switching stemmed from the varying switching delays within the event‐triggered scheme and controller. Second, assume that the data transmission network is subject to attacks consisting of deception attacks and aperiodic DoS attacks. Third, an optimized resilient dynamic event‐triggered scheme (ORD‐ETS) with switching behavior and external noises is proposed to intelligently reduce the inessential released data. For further improving the system performance, the updated ORD‐ETS (UORD‐ETS) is designed by introducing some fixed signals‐released points. Then, based on the mode‐dependent multiple Lyapunov functionals, integral inequality, incorporated switching signal technique and proposed asynchronous analysis method, some criteria are attained to ensure the globally exponentially mean‐square stable of the uncertain disturbed NSSs with a weighted performance. Further, the co‐design of the desired controller and the event‐triggered scheme is achieved. Ultimately, a numerical simulation with comparative analysis and a practical simulation are conducted to substantiate the validity of the obtained results. 10.1002/oca.3209 http://onlinelibrary.wiley.com/termsAndConditions#vor
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institution Wiley Open Access
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publisher Wiley
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spellingShingle Globally exponentially mean‐square stabilization on disturbed networked switched systems using optimized event‐triggered scheme
Xinyu Zhao
XianQiang Gao
Hao Chen
Zhenzhen Zhang
Shouming Zhong
Lili Shen
Optimal Control Applications and Methods
Globally exponentially mean‐square stabilization on disturbed networked switched systems using optimized event‐triggered scheme Xinyu Zhao XianQiang Gao Hao Chen Zhenzhen Zhang Shouming Zhong Lili Shen Optimal Control Applications and Methods AbstractThis article is concerned with the globally exponentially mean‐square stabilization problem for uncertain disturbed networked switched systems (NSSs) subject to mixed network attacks and multiple asynchronous switching by exploring an optimized event‐triggered scheme. First, we consider a new challenge of multiple asynchronous switching stemmed from the varying switching delays within the event‐triggered scheme and controller. Second, assume that the data transmission network is subject to attacks consisting of deception attacks and aperiodic DoS attacks. Third, an optimized resilient dynamic event‐triggered scheme (ORD‐ETS) with switching behavior and external noises is proposed to intelligently reduce the inessential released data. For further improving the system performance, the updated ORD‐ETS (UORD‐ETS) is designed by introducing some fixed signals‐released points. Then, based on the mode‐dependent multiple Lyapunov functionals, integral inequality, incorporated switching signal technique and proposed asynchronous analysis method, some criteria are attained to ensure the globally exponentially mean‐square stable of the uncertain disturbed NSSs with a weighted performance. Further, the co‐design of the desired controller and the event‐triggered scheme is achieved. Ultimately, a numerical simulation with comparative analysis and a practical simulation are conducted to substantiate the validity of the obtained results. 10.1002/oca.3209 http://onlinelibrary.wiley.com/termsAndConditions#vor
title Globally exponentially mean‐square stabilization on disturbed networked switched systems using optimized event‐triggered scheme
topic Optimal Control Applications and Methods
url https://onlinelibrary.wiley.com/doi/10.1002/oca.3209