CSEE Journal of Power and Energy Systems (Jan 2024)
Tube Model Predictive Control Based Cyber-Attack-Resilient Optimal Voltage Control Strategy in Wind Farms
Abstract
Optimal voltage controls have been widely applied in wind farms to maintain voltage stability of power grids. In order to achieve optimal voltage operation, authentic grid information is widely needed in the sensing and actuating processes. However, this may induce system vulnerable to malicious cyber-attacks. To this end, a tube model predictive control-based cyber-attack-resilient optimal voltage control method is proposed to achieve voltage stability against malicious cyber-attacks. The proposed method consists of two cascaded model predictive controllers (MPC), which outperform other peer control methods in effective alleviation of adverse effects from cyber-attacks on actuators and sensors of the system. Finally, efficiency of the proposed method is evaluated in sensor and actuator cyber-attack cases based on a modified IEEE 14 buses system and IEEE 118 buses system.
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