Dynamic-Memory Event-Based Adaptive Sliding-Mode Control for Networked Nonlinear Implicit Hybrid Systems Under Random Spoofing Attacks and Data-Buffer- Aided Mechanism

IF 5 3区计算机科学 Q2 AUTOMATION & CONTROL SYSTEMS IEEE Transactions on Control of Network Systems Pub Date : 2024-07-19 DOI:10.1109/TCNS.2024.3431410

Jingjuan Zhu;Guangming Zhuang;Jianwei Xia;Xiangpeng Xie

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Abstract

In this article, we investigates the issue of dynamic-memory event-based adaptive sliding-mode control for fuzzy-model-based nonlinear implicit Markov jump systems. The communication networks are deemed to be invaded by spoofing attacks in a probabilistic manner, where normally transmitted data may be replaced. Depending on the data-buffer-aided mechanism, a novel dynamic-memory event-triggered protocol is proposed to modulate the transmission frequency by drawing into historically released packets and two auxiliary internal dynamic variables. Then, a suitable event-triggered adaptive sliding-mode control strategy is developed to actualize the reachability of the specified integral sliding surface, which is capable of diminishing the impacts of model uncertainties. Stochastic admissibility and strict dissipativity conditions of closed-loop fuzzy implicit Markov jump systems are derived under the framework of linear matrix inequalities. Finally, a networked truck–trailer reversing system is exploited to verify the validity of developed strategies.

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随机欺骗攻击和数据缓冲辅助机制下网络非线性隐式混合系统的基于动态记忆事件的自适应滑模控制

本文研究基于模糊模型的非线性隐式马尔可夫跳变系统的动态记忆事件自适应滑模控制问题。通信网络被认为以概率方式受到欺骗攻击的入侵，其中正常传输的数据可能被替换。在数据缓冲辅助机制的基础上，提出了一种新的动态存储器事件触发协议，通过引入历史释放数据包和两个辅助的内部动态变量来调制传输频率。在此基础上，提出了一种合适的事件触发自适应滑模控制策略，以实现给定积分滑模的可达性，从而减小模型不确定性的影响。在线性矩阵不等式的框架下，导出了闭环模糊隐马尔可夫跳变系统的随机容许条件和严格耗散条件。最后，利用网络化的卡车-拖车倒车系统验证了所开发策略的有效性。

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IEEE Transactions on Control of Network Systems Mathematics-Control and Optimization

CiteScore

7.80

自引率

7.10%

发文量

169

期刊介绍： The IEEE Transactions on Control of Network Systems is committed to the timely publication of high-impact papers at the intersection of control systems and network science. In particular, the journal addresses research on the analysis, design and implementation of networked control systems, as well as control over networks. Relevant work includes the full spectrum from basic research on control systems to the design of engineering solutions for automatic control of, and over, networks. The topics covered by this journal include: Coordinated control and estimation over networks, Control and computation over sensor networks, Control under communication constraints, Control and performance analysis issues that arise in the dynamics of networks used in application areas such as communications, computers, transportation, manufacturing, Web ranking and aggregation, social networks, biology, power systems, economics, Synchronization of activities across a controlled network, Stability analysis of controlled networks, Analysis of networks as hybrid dynamical systems.

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