Prediction-Based EV-PV Coordination Strategy for Charging Stations Using Reinforcement Learning

Fangyuan Sun, Shu Su, R. Diao, Han Cheng, Da Meng, Shuai Lu
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引用次数: 0

Abstract

Coordinated charging activities of electric vehicles (EVs) in charging stations with distributed photovoltaic (PV) resources plays an important role in promoting PV consumption, saving electricity costs and improving profits for charging stations. However, the uncertainties caused by PV power output and EV arrivals impose grand challenges to achieve the desired optimal control performance. This paper presents a novel real-time EV-PV coordination strategy using distributed reinforcement learning (RL) agents, for providing real-time controls based on high-precision short-term prediction of PV outputs and EV arrivals, which can effectively avoid large deviations between actual and optimal conditions. The proposed RL-based control strategy can balance short-term and long-term benefits and achieve global optimization for charging stations. The feasibility and effectiveness of the proposed algorithm are verified by comprehensive case studies with realistic EV charging station data.
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基于强化学习的充电站EV-PV协调策略
分布式光伏资源充电站内电动汽车的协同充电活动,对促进光伏消纳、节约电力成本、提高充电站利润具有重要作用。然而,光伏输出和电动汽车的到来带来的不确定性给实现理想的最优控制性能带来了巨大的挑战。本文提出了一种基于分布式强化学习(RL)智能体的EV-PV实时协调策略,该策略基于PV输出和EV到达的高精度短期预测提供实时控制,可有效避免实际与最优条件之间的较大偏差。本文提出的基于rl的控制策略能够平衡充电站的短期效益和长期效益,实现充电站的全局优化。通过实际电动汽车充电站数据的综合案例分析,验证了该算法的可行性和有效性。
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8
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