Ensemble voting-based fault classification and location identification for a distribution system with microgrids using smart meter measurements

IF 2.4 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC
IET Smart Grid Pub Date : 2022-10-28 DOI:10.1049/stg2.12091
Md Maidul Islam, Muhammad Usama Usman, Alvi Newaz, Md Omar Faruque
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引用次数: 1

Abstract

This study presents an ensemble learning approach for fault classification and location identification in a smart distribution network containing photovoltaics (PV)-based microgrid. Lack of available data points and the unbalanced nature of the distribution system make fault handling a challenging task for utilities. The proposed method uses event-driven voltage data from smart meters to classify and locate faults. The ensemble voting classifier is composed of three base learners; random forest, k-nearest neighbours, and artificial neural network. The fault location (FL) task has been formulated as a classification problem where the fault type is classified in the first step and based on the fault type, the faulty bus is identified. The method is tested on IEEE-123 bus system modified with added PV-based microgrid along with dynamic loading conditions and varying fault resistances from 0 to 20 Ω for both unbalanced and balanced fault types. A further sensitivity analysis has been done to test the robustness of the proposed method under various noise levels and data loss errors in the smart meter measurements. The ensemble method shows improved performance and robustness compared to some previously proposed FL methods. Finally, the proposed method has been experimentally validated on a real-time simulation-based testbed using a state-of-the-art digital real-time simulator, industry standard DNP3 communication protocol and a cpu-based control centre running the FL algorithm.

Abstract Image

基于集成投票的微电网配电系统故障分类和定位识别
本文提出了一种集成学习方法,用于包含光伏微电网的智能配电网的故障分类和定位识别。缺乏可用的数据点和配电系统的不平衡性质使得故障处理成为公用事业公司的一项具有挑战性的任务。该方法利用智能电表的事件驱动电压数据对故障进行分类和定位。集成投票分类器由三个基学习器组成;随机森林,k近邻和人工神经网络。将故障定位(FL)任务表述为一个分类问题,首先对故障类型进行分类,根据故障类型识别出故障母线。该方法在添加了基于pv的微电网的改进的IEEE-123总线系统上进行了测试,并在动态负载条件下对不平衡和平衡故障类型的故障电阻从0到20 Ω变化。进一步的灵敏度分析测试了该方法在智能电表测量中各种噪声水平和数据丢失误差下的鲁棒性。与之前提出的一些FL方法相比,集成方法具有更好的性能和鲁棒性。最后,在基于实时仿真的测试平台上,使用最先进的数字实时模拟器、行业标准DNP3通信协议和运行FL算法的基于cpu的控制中心,对所提出的方法进行了实验验证。
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
IET Smart Grid
IET Smart Grid Computer Science-Computer Networks and Communications
CiteScore
6.70
自引率
4.30%
发文量
41
审稿时长
29 weeks
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