Event-Triggered Neural Asynchronous Control of Nonhomogeneous Markov Jump Power Systems With Hybrid Cyberattacks and Unknown States

IF 7.2 1区工程技术 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Transactions on Power Systems Pub Date : 2025-01-29 DOI:10.1109/TPWRS.2025.3535908

Wende Luo;Haiyang Chen;Guangdeng Zong;Xudong Zhao

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Abstract

This paper studies the observer-based event-triggered neural asynchronous control problem of nonhomogeneous Markov jump power systems (MJPSs) under hybrid cyberattacks. Both periodic denial-of-service attacks and deception attacks (DAs) are involved because of the openness of networks. An event-triggered mechanism is established to ease the network load. Besides, neural network (NN) approaches are adopted to suppress the adverse effects of DAs on nonhomogeneous MJPSs, and the hidden Markov model (HMM) is employed to capture the asynchronous phenomenon between the system mode and the controller mode. With NN approaches and HMM, an observer-based NN asynchronous controller is designed. By constructing the mode- and parameter-dependent Lyapunov function, sufficient criteria ensuring boundedness in probability for nonhomogeneous MJPSs are obtained. Then, a design algorithm is shown to simultaneously obtain the controller gains, observer gains, and event-triggering weight matrices based on the established conditions. Finally, the single-machine infinite-bus power system and 3-machine 6-bus power system are applied to justify the validity of the proposed algorithm.

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具有混合网络攻击和未知状态的非齐次马尔可夫跳变电力系统的事件触发神经异步控制

研究了混合网络攻击下非齐次马尔可夫跳变电力系统的基于观测器的事件触发神经异步控制问题。由于网络的开放性，周期性拒绝服务攻击和欺骗攻击都存在。建立事件触发机制，缓解网络负载。此外，采用神经网络（NN）方法抑制DAs对非同构MJPSs的不利影响，并采用隐马尔可夫模型（HMM）捕捉系统模式与控制器模式之间的异步现象。利用神经网络方法和HMM，设计了一种基于观测器的神经网络异步控制器。通过构造模态相关和参数相关的Lyapunov函数，得到了保证非齐次MJPSs概率有界性的充分准则。在此基础上，提出了一种基于给定条件同时获得控制器增益、观测器增益和事件触发权矩阵的设计算法。最后，以单机无限母线供电系统和三机六母线供电系统为例，验证了算法的有效性。

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来源期刊

IEEE Transactions on Power Systems 工程技术-工程：电子与电气

CiteScore

15.80

自引率

7.60%

发文量

696

审稿时长

3 months

期刊介绍： The scope of IEEE Transactions on Power Systems covers the education, analysis, operation, planning, and economics of electric generation, transmission, and distribution systems for general industrial, commercial, public, and domestic consumption, including the interaction with multi-energy carriers. The focus of this transactions is the power system from a systems viewpoint instead of components of the system. It has five (5) key areas within its scope with several technical topics within each area. These areas are: (1) Power Engineering Education, (2) Power System Analysis, Computing, and Economics, (3) Power System Dynamic Performance, (4) Power System Operations, and (5) Power System Planning and Implementation.