An IoT-Based Framework for Distributed Generic Microgrid Controllers

IF 4.9 2区计算机科学 Q1 AUTOMATION & CONTROL SYSTEMS

IEEE Transactions on Control Systems Technology Pub Date : 2024-03-28 DOI:10.1109/TCST.2024.3378989

Hao Tu;Hui Yu;Yuhua Du;Scott Eisele;Xiaonan Lu;Gabor Karsai;Srdjan Lukic

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引用次数: 0

Abstract

Microgrids (MGs) can effectively integrate distributed energy resources (DERs) and support the resilient functioning of the future power grid. In the literature, distributed MG control algorithms based on consensus protocols are proposed that distribute the computation and communication tasks to computational nodes at each DER, thus naturally supporting “plug-and-play” integration and improving resilience. Shifting to the distributed control paradigm requires a complete rethink and redesign of the current MG controller framework and implementation. In this article, we propose a framework for distributed generic MG controllers with the support of Internet of Things (IoT) technologies. With the proposed framework, distributed generic MG controllers can be designed to support all use cases of an MG, including grid-connected and islanded operations, planned/unplanned islanding, and reconnecting. We implement the proposed framework using a novel open-source platform, called Resilient Information Architecture Platform for the Smart Grid (RIAPS) and demonstrate its performance using hardware-in-the-loop (HIL) tests.

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基于物联网的分布式通用微电网控制器框架

微电网（MG）可以有效整合分布式能源资源（DER），支持未来电网的弹性运行。文献中提出了基于共识协议的分布式微电网控制算法，该算法将计算和通信任务分配给每个 DER 的计算节点，从而自然地支持 "即插即用 "集成并提高弹性。向分布式控制范例转变需要对当前的 MG 控制器框架和实施进行全面的重新思考和设计。在本文中，我们提出了一个支持物联网（IoT）技术的分布式通用 MG 控制器框架。利用所提出的框架，分布式通用 MG 控制器的设计可支持 MG 的所有用例，包括并网和孤岛运行、计划内/计划外孤岛和重新连接。我们利用一个名为智能电网弹性信息架构平台（RIAPS）的新型开源平台实现了所提出的框架，并利用硬件在环（HIL）测试演示了其性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

IEEE Transactions on Control Systems Technology 工程技术-工程：电子与电气

CiteScore

10.70

自引率

2.10%

发文量

218

审稿时长

6.7 months

期刊介绍： The IEEE Transactions on Control Systems Technology publishes high quality technical papers on technological advances in control engineering. The word technology is from the Greek technologia. The modern meaning is a scientific method to achieve a practical purpose. Control Systems Technology includes all aspects of control engineering needed to implement practical control systems, from analysis and design, through simulation and hardware. A primary purpose of the IEEE Transactions on Control Systems Technology is to have an archival publication which will bridge the gap between theory and practice. Papers are published in the IEEE Transactions on Control System Technology which disclose significant new knowledge, exploratory developments, or practical applications in all aspects of technology needed to implement control systems, from analysis and design through simulation, and hardware.

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