Diagnosis and classification of disturbances in the power distribution network by phasor measurement unit based on fuzzy intelligent system

Marzieh Khosravi, Mohammad Trik, Alireza Ansari
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Abstract

The dynamic nature of distribution networks raises fresh issues with how such electrical systems function. These networks have some characteristics that indicate the need for better monitoring and control capabilities, including dispersed generation employing renewable resources, changing load profiles, and rising reliability requirements. Phasor measurement units (PMUs) offer simultaneous voltage and current phasor measurements at various places and offer a variety of options for gauging the condition and health of the power distribution network. In this regard, a cost‐optimized PMU with some unique features for distribution systems is presented in this work. These features include a fuzzy inference system to determine the root cause of potential electrical disturbances and methods to estimate electrical parameters through measured field data, which are necessities. This study takes into account the modelling of PMUs, utilizing a process for fault detection and classification with a fuzzy inference network. The 9‐bus distribution network's dependability model is built once the components and their functions are first outlined. The proposed model is then used to calculate the availability of the presented model, which has been examined to provide an analogous reliability model for PMUs. Depending on the specific manufacturer, the PMU's design and specs will change. To extract phase and size measurement features for the proposed model adaptive neural‐fuzzy inference system network's training, two PMU structures and associated reliability models are described here. When merging input data for fuzzy neural network prediction using MATLAB software, fuzzy sets are taken into account for error classification analysis.
基于模糊智能系统的相位测量单元对配电网络中的干扰进行诊断和分类
配电网络的动态性质为此类电力系统的运行提出了新的问题。这些网络的一些特点表明,需要更好的监测和控制能力,包括采用可再生资源的分散式发电、不断变化的负载情况和不断提高的可靠性要求。相位测量单元(PMU)可同时测量不同位置的电压和电流相位,为测量配电网络的状况和健康提供了多种选择。为此,本文介绍了一种针对配电系统的成本优化型 PMU,它具有一些独特的功能。这些功能包括模糊推理系统,用于确定潜在电气干扰的根本原因,以及通过测量的现场数据估算电气参数的方法,这些都是必需的。本研究考虑了 PMU 的建模,利用模糊推理网络进行故障检测和分类。首先概述了 9 总线配电网络的组件及其功能,然后建立了该网络的可靠性模型。然后,利用所提出的模型计算可用性,并对其进行检查,为 PMU 提供类似的可靠性模型。根据具体制造商的不同,PMU 的设计和规格也会发生变化。为了提取相位和尺寸测量特征,以便对所提出的模型进行自适应神经-模糊推理系统网络训练,这里介绍了两种 PMU 结构和相关的可靠性模型。在使用 MATLAB 软件合并模糊神经网络预测的输入数据时,考虑了模糊集的误差分类分析。
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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