摘要
文章提出一种基于5G的智能配电网自协商供电终端系统,该系统采用分层架构设计,包括感知层、通信层、应用层以及支撑平台。感知层通过多元异构传感器全面感知配电网运行状态,通信层利用5G技术构建高速、可靠、灵活的数据传输通道,应用层则采用多智能体强化学习框架实现供电终端的自主协商与优化控制,支撑平台提供高效、可靠的数据处理与知识服务支撑。通过仿真试验验证,该系统在供电可靠性、电能质量、优化效率等方面表现出显著优势。
This paper proposes a self-negotiation power supply terminal system for intelligent distribution networks based on 5G,the system adopts a hierarchical architecture,comprising the perception layer,communication layer,application layer,and support platform.The perception layer achieves comprehensive perception of the distribution network’s operating status through diverse heterogeneous sensors,while the communication layer utilizes 5G technology to establish high-speed,reliable,and flexible data transmission channels.The application layer employs a multi-agent reinforcement learning framework to realize autonomous negotiation and optimization control of power supply terminals.The support platform provides efficient and reliable data processing and knowledge service support.Through simulation experiments,the system demonstrates significant advantages in power supply reliability,electrical energy quality,and optimization efficiency.
作者
张晋杰
王艺洁
ZHANG Jinjie;WANG Yijie(State Grid Shaanxi Electric Power Co.,Ltd.,Xi’an Huyi District Power Supply Branch,Xi’an 710300,China)
出处
《通信电源技术》
2024年第9期22-24,共3页
Telecom Power Technology
关键词
智能配电网
5G
多智能体强化学习
自协商控制
smart distribution network
5G
multi-agent reinforcement learning
self-negotiating control