欺骗攻击环境下具有执行器故障的跳变耦合 信息物理系统的同步控制

王士贤; 李军毅; 张斌

引用本文:	王士贤,李军毅,张斌.欺骗攻击环境下具有执行器故障的跳变耦合信息物理系统的同步控制[J].控制理论与应用,2020,37(4):863~870.[点击复制]
	WANG Shi-xian,LI Jun-yi,ZHANG Bin.Synchronization control of jumping coupled cyber physical system with actuator failures under deception attacks[J].Control Theory and Technology,2020,37(4):863~870.[点击复制]

欺骗攻击环境下具有执行器故障的跳变耦合信息物理系统的同步控制

Synchronization control of jumping coupled cyber physical system with actuator failures under deception attacks

摘要点击 1921 全文点击 753 投稿时间：2019-05-02 修订日期：2019-10-07

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DOI编号 10.7641/CTA.2019.90312

2020,37(4):863-870

中文关键词信息物理系统欺骗攻击执行器故障 Markov跳变同步控制

英文关键词 cyber physical system deception attacks actuator failures Markov jumping synchronization control

基金项目国家自然科学基金

作者	单位	E-mail
王士贤	广东工业大学	328702516@qq.com
李军毅	广东工业大学
张斌^*	广东工业大学	zhangbin_csu309@163.com

中文摘要

针对一类离散Markov跳变耦合信息物理系统(Cyber Physical System, CPS)的同步控制问题, 在考虑系统参数跳变、耦合参数跳变、控制信息不完全和人为攻击的情况下, 设计同步控制器实现CPS的同步. 首先, 给出具有随机欺骗攻击和执行器故障的Markov 跳变耦合CPS模型. 其次, 基于矩阵Kronecker积, 得到同步误差系统, 将CPS的同步控制问题转化为同步误差系统的稳定性分析问题. 再次, 通过构造合适的Lyapunov-Krasovskii泛函, 并利用Lyapunov稳定性理论和线性矩阵不等式方法得到使同步误差系统稳定的充分条件, 在此基础上, 设计同步控制器实现对Markov跳变耦合CPS的同步控制. 最后, 通过数值仿真例子说明该同步控制器设计方法的有效性.

英文摘要

This paper studies synchronization control problem for a class of discrete-time Markov jumping coupled cyber physical system (CPS). Considering both system and coupling parameter jumps, as well as incomplete control information and deception attacks, a set of synchronization controllers are designed to achieve synchronization of CPS. First, Markov jumping coupled CPS with random deception attacks and actuator failures are formulated. Then, synchronization error system is developed based on matrix Kronecker product to transform synchronization control problem for CPS to stability analysis problem for synchronization error system. Sufficient conditions for the stability of the synchronization error system are obtained by constructing a suitable Lyapunov-Krasovskii functional and utilizing Lyapunov stability theory and linear matrix inequality method. Then, synchronization controllers are designed to synchronize the Markov jumping coupled CPS. Finally, a numerical example is presented to show the validity of the proposed synchronization controllers design method.