Security control for Markovian jump systems under fading channel: A finite‐time sliding‐mode method

The finite‐time sliding mode control (SMC) design is developed in this work for Markovian jump systems with peak‐bounded external disturbances, where the system state may suffer from the channel fading and deception attacks over the sensor‐to‐controller channel. The multiplicative fading model is in...

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Published in	International journal of robust and nonlinear control Vol. 33; no. 10; pp. 5289 - 5304
Main Authors	Zhao, Meng, Cao, Zhiru, Yang, Yekai, Niu, Yugang
Format	Journal Article
Language	English
Published	Bognor Regis Wiley Subscription Services, Inc 10.07.2023
Subjects	channel fading Deception deception attacks Fading finite‐time boundedness Independent variables Markovian jump systems Mathematical models Random variables Security Sliding mode control
Online Access	Get full text
ISSN	1049-8923 1099-1239
DOI	10.1002/rnc.6642

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Abstract	The finite‐time sliding mode control (SMC) design is developed in this work for Markovian jump systems with peak‐bounded external disturbances, where the system state may suffer from the channel fading and deception attacks over the sensor‐to‐controller channel. The multiplicative fading model is introduced to describe the fading phenomenon in the unpredictable communication network, and the channel coefficients are mutually independent random variables that take values in certain intervals. Besides, the deception attacks on the transmitted state signals may be stochastically launched. Under the effect of channel fading and deception attacks, a sliding surface involving fading parameter is devised, and a security finite‐time SMC law is designed to achieve the finite‐time reachability of the specified sliding surface. Furthermore, by adopting the partitioning strategy during the reaching phase and sliding phase of SMC design, the derived sufficient criteria can achieve the stochastic finite‐time boundedness. Finally, the numerical simulation results are provided to illustrate the developed finite‐time SMC approach under the fading communication and malicious attacks.
AbstractList	The finite‐time sliding mode control (SMC) design is developed in this work for Markovian jump systems with peak‐bounded external disturbances, where the system state may suffer from the channel fading and deception attacks over the sensor‐to‐controller channel. The multiplicative fading model is introduced to describe the fading phenomenon in the unpredictable communication network, and the channel coefficients are mutually independent random variables that take values in certain intervals. Besides, the deception attacks on the transmitted state signals may be stochastically launched. Under the effect of channel fading and deception attacks, a sliding surface involving fading parameter is devised, and a security finite‐time SMC law is designed to achieve the finite‐time reachability of the specified sliding surface. Furthermore, by adopting the partitioning strategy during the reaching phase and sliding phase of SMC design, the derived sufficient criteria can achieve the stochastic finite‐time boundedness. Finally, the numerical simulation results are provided to illustrate the developed finite‐time SMC approach under the fading communication and malicious attacks.
Author	Zhao, Meng Cao, Zhiru Yang, Yekai Niu, Yugang
Author_xml	– sequence: 1 givenname: Meng surname: Zhao fullname: Zhao, Meng organization: Ministry of Education – sequence: 2 givenname: Zhiru surname: Cao fullname: Cao, Zhiru organization: Shanghai University – sequence: 3 givenname: Yekai surname: Yang fullname: Yang, Yekai organization: Ministry of Education – sequence: 4 givenname: Yugang orcidid: 0000-0002-3010-1879 surname: Niu fullname: Niu, Yugang email: acniuyg@ecust.edu.cn organization: Ministry of Education
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SubjectTerms	channel fading Deception deception attacks Fading finite‐time boundedness Independent variables Markovian jump systems Mathematical models Random variables Security Sliding mode control
Title	Security control for Markovian jump systems under fading channel: A finite‐time sliding‐mode method
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