Fault classification using multi-resolution analysis and discrete wavelet transforms

2017 XXVI International Conference on Information, Communication and Automation Technologies (ICAT) Pub Date : 2017-10-01 DOI:10.1109/ICAT.2017.8171647

Sejla Dzakmic, T. Namas, I. Džafić

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引用次数: 5

Abstract

The continuity of service in power systems has a vital economical and social impact on all shareholders; generation, transmission and distribution, and end users. Fault classification within transmission and distribution networks plays an important role in power restoration for guaranteed service continuity. With advances in digital signal processing in terms of speed and algorithms, the use of wavelets transform is made easy and feasible for real-time applications in power systems. In this paper we present two methods of fault classification using Discrete Wavelet Transforms (DWT). The coefficients of the wavelet decomposition of fault signals are correlated with the coefficients of signals in normal working conditions to deduce fault information. Haar wavelets and multi-resolution analysis are used for detecting the faulty phase while Daubechies wavelet is used to determine if the fault to ground or not. Both suggested methods succeeded in all types of faults simulated using Simulink.

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基于多分辨率分析和离散小波变换的故障分类

电力系统服务的连续性对所有股东都具有重要的经济和社会影响;发电、输配电和终端用户。输配电网络故障分类对电力恢复、保证供电连续性具有重要意义。随着数字信号处理在速度和算法方面的进步，小波变换在电力系统中的实时应用变得简单可行。提出了两种基于离散小波变换(DWT)的故障分类方法。将故障信号的小波分解系数与正常工况下的信号系数进行关联，从而推断出故障信息。采用Haar小波和多分辨率分析检测故障相位，采用Daubechies小波检测故障是否接地。这两种方法都成功地模拟了Simulink中所有类型的故障。

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2017 XXVI International Conference on Information, Communication and Automation Technologies (ICAT)

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