基于物联网的家庭规模微电网的增强分层控制策略

Y. Guan, J. Vasquez, J. Guerrero
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引用次数: 9

摘要

随着智能控制和检测技术的进步,越来越多的智能设备/传感器被用于提高人们的生活水平。为了实现物联网与微电网的集成,提出了一种基于物联网的家庭规模微电网的增强分层控制策略。物理智能设备/传感器和逆变器在初级级别定义。二级采用电气和环境变量偏差恢复回路。在三级系统中部署了不同目标的潮流管理和优化算法。从这个意义上说,物联网基础设施可以与原始的MG分层控制理论顺利集成。根据丹麦奥尔堡大学的VICINITY项目,拟议的结构将在物联网MG实验室中实施。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An enhanced hierarchical control strategy for the Internet of Things-based home scale microgrid
As the intelligent control and detection technology improving, more and more smart devices/sensors can be used to increase the living standard. In order to integrate the Internet of Things (IoT) with microgrid (MG), an enhanced hierarchical control strategy for IoT-based home scale MG is proposed in this paper. Physical smart devices/sensors and inverters are defined at the primary level. Electrical and environmental variables deviation restoration loops are adopted at the secondary level. Power flow management and optimization algorithms with different objectives are deployed at the tertiary level. In this sense, the IoT infrastructure can be smoothly integrated with the original MG hierarchical Control theory. The proposed structure will be implemented in an IoT MG laboratory in line with VICINITY project at Aalborg University, Denmark.
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