基于mpc的孤岛微电网负载虚拟惯性控制频率控制及DoS攻击漏洞分析

智能电网与可再生能源(英文) Pub Date : 2022-03-20 DOI:10.1109/SGRE53517.2022.9774122

Athira M. Mohan, N. Meskin, H. Mehrjerdi

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引用次数: 1

摘要

本文旨在设计一种基于模型预测控制(MPC)的辅助(虚拟惯性(VI))控制器，用于高可再生能源(RES)渗透和系统惯性参数变化情况下的非线性微电网负荷频率控制(LFC)。除了负荷变化引起的频率偏差外，配备风力和太阳能发电机组等不可调度RESs的微电网系统还会造成频率不稳定。由此产生的频率变化很难由可用的主要和次要控制来处理。因此，除了主要和次要LFC之外，还提出了一种基于mpc的微电网LFC系统辅助控制策略。进一步，将所提出的控制策略与其他不同的控制方案进行了比较，以验证所提出的控制方法的有效性。此外，分析了不同控制方案下微电网LFC系统遭受拒绝服务攻击的影响，了解了微电网LFC系统遭受DoS攻击的脆弱性。

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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MPC-Based Virtual Inertia Control of Islanded Microgrid Load Frequency Control and DoS Attack Vulnerability Analysis

The aim of the work is to design a model predictive control (MPC)-based auxiliary (virtual inertia (VI)) controller for the load frequency control (LFC) of a non-linear microgrid under high renewable energy source (RES) penetration and system inertia parameter variation. Microgrid systems equipped with nondispatchable RESs like wind and solar power generation units can create frequency instability in addition to the frequency deviation induced by the load changes. This resulting frequency variation is difficult to be handled by the available primary and secondary controls. Hence, in addition to the primary and secondary LFCs, an MPC-based auxiliary control strategy is proposed for the microgrid LFC system. Further, the proposed control strategy is compared with other different control schemes to confirm the efficacy of the proposed control method. In addition, the impact of denial of service (DoS) attack in microgrid LFC system with different control schemes is analyzed to understand the system’s vulnerability to DoS attack.

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智能电网与可再生能源(英文)

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