A Power System Corrective Control Method Based on Evolutionary Reinforcement Learning

被引:1
作者
Zhang, Haoran [1 ]
Xu, Peidong [1 ]
Zhang, Ke [1 ]
Zhao, Hang [1 ]
Dai, Yuxin [1 ]
Gao, Tianlu [1 ]
Zhang, Jun [1 ]
机构
[1] Wuhan Univ, Sch Elect Engn & Automat, Wuhan 430072, Peoples R China
来源
IEEE JOURNAL OF RADIO FREQUENCY IDENTIFICATION | 2022年 / 6卷
关键词
Corrective control; evolutionary algorithm; reinforcement learning; power network; LINE;
D O I
10.1109/JRFID.2022.3205359
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
Corrective control becomes more and more important for power systems due to the increasing penetration of renewable energy. As an effective method in control problems, the Reinforcement learning method is considered to provide decisions for corrective control in power networks. However, the large size of action and state space, as well as the sparse reward problem in corrective control limits the application of the RL method. This paper proposed an evolutionary reinforcement learning method. Combining the evolutionary algorithm and Reinforcement learning methods, this method decreases the training difficulty of reinforcement learning. The experiments based on the Grid2op environment show that the proposed method has a longer operation time than other traditional methods in the corrective control of power networks.
引用
收藏
页码:815 / 819
页数:5
相关论文
共 50 条
[31]   Reinforcement Learning for Electric Power System Decision and Control: Past Considerations and Perspectives [J].
Glavic, Mevludin ;
Fonteneau, Raphael ;
Ernst, Damien .
IFAC PAPERSONLINE, 2017, 50 (01) :6918-6927
[32]   Maximum Power Point Tracking of Photovoltaic System Based on Reinforcement Learning [J].
Chou, Kuan-Yu ;
Yang, Shu-Ting ;
Chen, Yon-Ping .
SENSORS, 2019, 19 (22)
[33]   Power Allocation Based on Reinforcement Learning for MIMO System With Energy Harvesting [J].
Mu, Xingchi ;
Zhao, Xiaohui ;
Liang, Hui .
IEEE TRANSACTIONS ON VEHICULAR TECHNOLOGY, 2020, 69 (07) :7622-7633
[34]   Maximum Power Point Tracking of Photovoltaic System Based on Reinforcement Learning [J].
Chou, Kuan-Yu ;
Yang, Shu-Ting ;
Yang, Chia-Shiou ;
Chen, Yon-Ping .
2019 IEEE INTERNATIONAL CONFERENCE ON CONSUMER ELECTRONICS - TAIWAN (ICCE-TW), 2019,
[35]   Traffic Signal Control System Based on Intelligent Transportation System and Reinforcement Learning [J].
Hurtado-Gomez, Julian ;
David Romo, Juan ;
Salazar-Cabrera, Ricardo ;
Pachon de la Cruz, Alvaro ;
Molina, Juan Manuel Madrid .
ELECTRONICS, 2021, 10 (19)
[36]   Reinforcement Learning Based Motion Control Method for Electrical-hydraulic Valve-Controlled System [J].
Gao, Lulu ;
Zhao, Jixing ;
Duan, Jingliang ;
Liu, Shaowei ;
Ma, Fei .
IEEE-ASME TRANSACTIONS ON MECHATRONICS, 2025, 30 (01) :751-762
[37]   Energy-Saving for a Velocity Control System of a Pipe Isolation Tool Based on a Reinforcement Learning Method [J].
Tingting Wu ;
Hong Zhao ;
Boxuan Gao ;
Fanbo Meng .
International Journal of Precision Engineering and Manufacturing-Green Technology, 2022, 9 :225-240
[38]   Energy-Saving for a Velocity Control System of a Pipe Isolation Tool Based on a Reinforcement Learning Method [J].
Wu, Tingting ;
Zhao, Hong ;
Gao, Boxuan ;
Meng, Fanbo .
INTERNATIONAL JOURNAL OF PRECISION ENGINEERING AND MANUFACTURING-GREEN TECHNOLOGY, 2022, 9 (01) :225-240
[39]   Deep Reinforcement Learning-Based Tie-Line Power Adjustment Method for Power System Operation State Calculation [J].
Xu, Huating ;
Yu, Zhihong ;
Zheng, Qingping ;
Hou, Jinxiu ;
Wei, Yawei ;
Zhang, Zhijian .
IEEE ACCESS, 2019, 7 :156160-156174
[40]   A congestion control method of SDN data center based on reinforcement learning [J].
Jin, Rong ;
Li, Jiaojiao ;
Tuo, Xin ;
Wang, Weiming ;
Li, Xiaolin .
INTERNATIONAL JOURNAL OF COMMUNICATION SYSTEMS, 2018, 31 (17)
12345