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Abstract
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In islanded microgrid confgurations, synchronization of distributed generators (DGs) becomes imperative. Achieving syn chronization and control necessitates the establishment of communication links. However, communication channels are sus ceptible to various challenges, with cyber-attacks emerging as a primary concern. Tis paper examines the vulnerability of cooperative hierarchical controllers in the face of diverse cyber-attacks, including DoS, sensor and actuator attacks, and hijacking attacks. DGs are considered a multiagent system for stabilization and global synchronization of the network. Cyber-attacks on the secondary controller have been formalized, and an appropriate controller is designed for system synchronization and stability. The appropriate Lyapunov function is introduced to prove the stability. Ten, the simultaneous stabilization and global synchro nization conditions have been investigated by proving suitable theorems. A comprehensive case study is executed via simulation in MATLAB/Simulink, incorporating cyber-attack scenarios. Te efects of cyber-attacks on this controller are eliminated, and the DGs are synchronized. For comparison, the resilience indicator has been used. In this controller, the cyber-attacks of the sensor and hijacking attack are well controlled. A DoS cyber-attack is more efective than other attacks and causes some DGs to go of the network. Also, comparing this controller to other controllers shows its greater resilience.
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