Observer-based dynamic event-triggered H∞ LFC for power systems under actuator saturation and deception attack

作者：

Highlights：

• A novel DETM is proposed by introducing the internal variable η(t) (t) and additional exponential term to reduce the pressure of data transmission. Compared with [17,23,41], we introduce an additional exponential term to further improve the communication bandwidth utilization.Moreover, the Zeno behavior is avoided naturally.

• The observer-based resilient control strategy and stochastic Lyapunov stability theory are developed such that the LFC systems are mean-square exponential stable. Finally, the simulations are given to prove the usefulness of the proposed method.

摘要

•A unified dynamic driven and observer-based security LFC framework is established for power systems in which the time delays and actuator saturation are considered simultaneously. While, in many existing studies [24,35], only partly conditions were considered. Different from [25,36], the actuator saturation is also considered in this paper.•A novel DETM is proposed by introducing the internal variable η(t) (t) and additional exponential term to reduce the pressure of data transmission. Compared with [17,23,41], we introduce an additional exponential term to further improve the communication bandwidth utilization.Moreover, the Zeno behavior is avoided naturally.•The observer-based resilient control strategy and stochastic Lyapunov stability theory are developed such that the LFC systems are mean-square exponential stable. Finally, the simulations are given to prove the usefulness of the proposed method.

论文关键词：Dynamic event-triggered mechanism,H∞ load frequency control,State observer,Stochastic deception attack,Actuator saturation control

论文评审过程：Received 27 July 2021, Revised 10 November 2021, Accepted 23 December 2021, Available online 2 January 2022, Version of Record 2 January 2022.

论文官网地址：https://doi.org/10.1016/j.amc.2021.126896