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Dynamic Fault Reconfiguration of Distribution Networks in Ship Power Systems Based on Deep Reinforcement Learning Approach

Chengya Shang, Lijun Fu, Xianqiang Bao, Haipeng Xiao, Xinghua Xu, Lufeng Liu

2023IEEE Transactions on Transportation Electrification15 citationsDOI

Abstract

When a fault occurs, driven by the reconfiguration strategy, the topology of ship power system (SPS) will be changed to isolate the fault area and restore the lost load. However, traditional optimization methods have limitations, such as getting stuck in suboptimal solutions or not offering real-time solutions. This paper proposes a novel deep reinforcement learning (DRL) method to address the dynamic fault reconfiguration problem in real-time for SPS. While considering the load priorities, the fault reconfiguration model is formulated with the goal of the maximum weighted load power and the minimum switching action. Then, a deep Q network (DQN) combined with action mask mechanism, what is called DQN-Mask algorithm, is applied to optimize the switch action. The proposed method enables end-to-end control from the fault node data to the switch sequences, and has migration capability in different scenarios. Two case studies are analyzed based on historical fault datasets of medium voltage DC (MVDC) SPS. The numerical results verify the effectiveness, real-time performance, migration and scalability of the proposed DQN-Mask algorithm.

Topics & Concepts

Control reconfigurationReinforcement learningComputer scienceFault (geology)ScalabilityNode (physics)Power (physics)Fault toleranceVoltageDistributed computingTopology (electrical circuits)Control theory (sociology)Artificial intelligenceControl (management)EngineeringEmbedded systemElectrical engineeringSeismologyQuantum mechanicsGeologyPhysicsDatabaseStructural engineeringMicrogrid Control and OptimizationPower System Reliability and MaintenanceMultilevel Inverters and Converters
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