Event-triggered sliding mode control for networked T–S fuzzy delayed systems against random injection attacks

IF 3.7 3区 计算机科学 Q2 AUTOMATION & CONTROL SYSTEMS
Hao Liu , Jun Hu , Hongxu Zhang , Zhiyuan Zuo
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引用次数: 0

Abstract

This paper investigates the event-triggered sliding mode control (SMC) problem for networked T–S fuzzy delayed systems subject to random injection attacks, where the event-triggered mechanism (ETM) is introduced to alleviate data congestion and improve network efficiency. Under an open network environment, malicious attackers may randomly inject false information into the controller–actuator channel to compromise the integrity of the data. A new fuzzy sliding mode controller is constructed based on a non-parallel distributed compensation strategy, which introduces the distribution information of the attack probability. Then, the membership function dependent (MFD) analysis technique is adopted to reconstruct the membership functions in order to reduce the conservatism caused by the mismatch between the membership functions of fuzzy model and controller. Furthermore, the co-design conditions for the ETM and the fuzzy sliding mode controller are provided, which can ensure that the resulting closed-loop fuzzy system is mean-square exponentially ultimately bounded (EUB) and the sliding surface is reachable. Finally, a simulation experiment with tunnel diode circuit application is utilized to demonstrate the validity of the proposed SMC scheme.
针对随机注入攻击的网络 T-S 模糊延迟系统的事件触发滑动模式控制
本文研究了受随机注入攻击的网络 T-S 模糊延迟系统的事件触发滑模控制(SMC)问题,其中引入了事件触发机制(ETM)以缓解数据拥塞并提高网络效率。在开放的网络环境下,恶意攻击者可能会随机向控制器-执行器信道注入虚假信息,从而破坏数据的完整性。基于非并行分布式补偿策略,引入攻击概率分布信息,构建了一种新的模糊滑模控制器。然后,采用成员函数依赖(MFD)分析技术重构成员函数,以减少模糊模型和控制器成员函数不匹配造成的保守性。此外,还提供了 ETM 和模糊滑模控制器的协同设计条件,从而确保所得到的闭环模糊系统是均方指数最终有界(EUB)的,且滑动面是可达到的。最后,利用隧道二极管电路应用的仿真实验证明了所提出的 SMC 方案的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.30
自引率
14.60%
发文量
586
审稿时长
6.9 months
期刊介绍: The Journal of The Franklin Institute has an established reputation for publishing high-quality papers in the field of engineering and applied mathematics. Its current focus is on control systems, complex networks and dynamic systems, signal processing and communications and their applications. All submitted papers are peer-reviewed. The Journal will publish original research papers and research review papers of substance. Papers and special focus issues are judged upon possible lasting value, which has been and continues to be the strength of the Journal of The Franklin Institute.
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