Probabilistic Event-Triggered Policy for Extended Dissipative Finite-Time Control of MJSs Under Cyber-Attacks and Actuator Failures

This technical note investigates the problem of extended dissipative finite-time control for Markov jump systems (MJSs) with cyber-attacks and actuator failures. A probabilistic event-triggered mechanism (PETM) is proposed to relieve the communication burden by exploiting both the pattern variation...

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Published in	IEEE transactions on automatic control Vol. 68; no. 12; pp. 1 - 8
Main Authors	Chen, Haiyang, Zong, Guangdeng, Gao, Fangzheng, Shi, Yang
Format	Journal Article
Language	English
Published	New York IEEE 01.12.2023 The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects	Actuator failure Actuators Closed loops cyber-attack Cyberattack Cybersecurity Delays Dissipation extended dissipative finite-time control Feedback control Mathematical analysis MJS Output feedback probabilistic event-triggered mechanism Probabilistic logic Probability theory Random variables Switches Technological innovation Uncertainty
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Abstract	This technical note investigates the problem of extended dissipative finite-time control for Markov jump systems (MJSs) with cyber-attacks and actuator failures. A probabilistic event-triggered mechanism (PETM) is proposed to relieve the communication burden by exploiting both the pattern variation of triggering thresholds and the time-varying characteristic of transmission delays. To characterize the actual control inputs, a stochastic actuator failure model (SAFM) is established using a random variable of any discrete-time distribution over [0,1]. Firstly, based on the PETM and SAFM, static output feedback controllers are devised which may not switch with the system synchronously. Then, novel sufficient conditions with less conservatism are obtained to achieve the extended dissipative finite-time control performance of the closed-loop system under admissible cyber-attacks and actuator failures. Furthermore, controller gains with non-convex constraints are calculated with the aid of a newly proposed lemma. Finally, an application oriented example is provided to verify the effectiveness and superiority of the proposed results.
AbstractList	This technical note investigates the problem of extended dissipative finite-time control for Markov jump systems (MJSs) with cyber-attacks and actuator failures. A probabilistic event-triggered mechanism (PETM) is proposed to relieve the communication burden by exploiting both the pattern variation of triggering thresholds and the time-varying characteristic of transmission delays. To characterize the actual control inputs, a stochastic actuator failure model (SAFM) is established using a random variable of any discrete-time distribution over [0,1]. Firstly, based on the PETM and SAFM, static output feedback controllers are devised which may not switch with the system synchronously. Then, novel sufficient conditions with less conservatism are obtained to achieve the extended dissipative finite-time control performance of the closed-loop system under admissible cyber-attacks and actuator failures. Furthermore, controller gains with non-convex constraints are calculated with the aid of a newly proposed lemma. Finally, an application oriented example is provided to verify the effectiveness and superiority of the proposed results. This technical note investigates the problem of extended dissipative finite-time control for Markov jump systems (MJSs) with cyber-attacks and actuator failures. A probabilistic event-triggered mechanism (PETM) is proposed to relieve the communication burden by exploiting both the pattern variation of triggering thresholds and the time-varying characteristic of transmission delays. To characterize the actual control inputs, a stochastic actuator failure model (SAFM) is established using a random variable of any discrete-time distribution over [0, 1]. First, based on the PETM and SAFM, static output-feedback controllers are devised, which may not switch with the system synchronously. Then, novel sufficient conditions with less conservatism are obtained to achieve the extended dissipative finite-time control performance of the closed-loop system under admissible cyber-attacks and actuator failures. Furthermore, controller gains with nonconvex constraints are calculated with the aid of a newly proposed lemma. Finally, an application oriented example is provided to verify the effectiveness and superiority of the proposed results.
Author	Chen, Haiyang Shi, Yang Zong, Guangdeng Gao, Fangzheng
Author_xml	– sequence: 1 givenname: Haiyang orcidid: 0000-0002-7556-6741 surname: Chen fullname: Chen, Haiyang organization: School of Control Science and Engineering, Tiangong University, Tianjin, China – sequence: 2 givenname: Guangdeng orcidid: 0000-0001-6498-5580 surname: Zong fullname: Zong, Guangdeng organization: School of Control Science and Engineering, Tiangong University, Tianjin, China – sequence: 3 givenname: Fangzheng orcidid: 0000-0002-1155-8064 surname: Gao fullname: Gao, Fangzheng organization: School of Automation, Nanjing Institute of Technology, Nanjing, China – sequence: 4 givenname: Yang orcidid: 0000-0003-1337-5322 surname: Shi fullname: Shi, Yang organization: Department of Mechanical Engineering, University of Victoria, Victoria, BC, Canada
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SubjectTerms	Actuator failure Actuators Closed loops cyber-attack Cyberattack Cybersecurity Delays Dissipation extended dissipative finite-time control Feedback control Mathematical analysis MJS Output feedback probabilistic event-triggered mechanism Probabilistic logic Probability theory Random variables Switches Technological innovation Uncertainty
Title	Probabilistic Event-Triggered Policy for Extended Dissipative Finite-Time Control of MJSs Under Cyber-Attacks and Actuator Failures
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