This paper aims to design the fully distributed event-triggered secondary voltage resilient tracking control strategy for microgrids subject to denial-of-service (DoS) attacks. The fully distributed method is employed to remove the requirement of the smallest nonzero eigenvalue of the Laplacian matrix, which is the global information. In addition, an attack compensation with the latest successful transmission state information from neighbor's as the attack compensation term is designed for both the event-triggered scheme and the controller to save communication resources and mitigate the negative effects caused by DoS attacks. Finally, the effectiveness of the designed fully distributed event-triggered resilient control method subject to DoS attacks is demonstrated via a simulation example with comparisons.

中文翻译：

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用于微电网的全分布式事件触发次级电压弹性跟踪控制


本文旨在为遭受拒绝服务 （DoS） 攻击的微电网设计完全分布式事件触发的次级电压弹性跟踪控制策略。采用完全分布式方法消除了拉普拉斯矩阵的最小非零特征值的要求，即全局信息。此外，为节省通信资源，减轻 DoS 攻击带来的负面影响，该方案以邻居的最新成功传输状态信息作为攻击补偿项，为事件触发方案和控制器设计了攻击补偿。最后，通过仿真实例和比较证明了所设计的全分布式事件触发弹性控制方法对 DoS 攻击的有效性。