Fault detection and classification method using DWT and SVM in a power distribution network

X. G. Magagula, Y. Hamam, J. Jordaan, A. Yusuff
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引用次数: 23

Abstract

This paper presents a technique of fault feature extraction, detection and classification of short circuit faults in a power distribution network. A reduced 88 kV power distribution network is modelled in Digsilent Power Factory. Transient fault current signals of various types of faults are then subsequently obtained through an Electromagnetic Transient (EMT) study on the model. A Discrete Wavelet Transform (DWT) is used to extract features from transient fault currents measured at the source terminal of the network. The extracted features are subsequently fed into a Support Vector Machine (SVM) in order to detect and classify various types of faults. The method uses the first two cycles of the transient fault current measured at the source terminal after the fault inception. A hybrid technique using DWT and SVM is thus proposed. The feasibility of the proposed technique is tested using Matlab. The results of the proposed fault feature extraction, detection and classification technique showed that various types of faults in a power distribution network can be detected and classified accurately.
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基于小波变换和支持向量机的配电网故障检测与分类方法
本文提出了一种配电网络短路故障特征提取、检测和分类技术。在Digsilent电厂中建立了一个减小的88kv配电网模型。然后,通过对模型的电磁瞬变(EMT)研究,获得各种类型故障的暂态故障电流信号。采用离散小波变换(DWT)从网络源端测量的暂态故障电流中提取特征。然后将提取的特征输入到支持向量机(SVM)中,以检测和分类各种类型的故障。该方法使用故障开始后在源端测量的瞬态故障电流的前两个周期。提出了一种基于小波变换和支持向量机的混合方法。利用Matlab对该技术的可行性进行了验证。本文提出的故障特征提取、检测和分类技术的实验结果表明,该技术能够准确地检测和分类配电网中各种类型的故障。
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