UNBALANCED LOAD FLOW WITH HYBRID WAVELET TRANSFORM AND SUPPORT VECTOR MACHINE BASED ERROR-CORRECTING OUTPUT CODES FOR POWER QUALITY DISTURBANCES CLASSIFICATION INCLUDING WIND ENERGY

IF 1.6 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC Electrical Engineering & Electromechanics Pub Date : 2019-12-19 DOI:10.20998/2074-272x.2019.6.09

A. Rahmani, L. Slimani, T. Bouktir

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引用次数: 1

Abstract

Purpose. The most common methods to design a multiclass classification consist to determine a set of binary classifiers and to combine them. In this paper support vector machine with Error-Correcting Output Codes (ECOC-SVM) classifier is proposed to classify and characterize the power quality disturbances such as harmonic distortion, voltage sag, and voltage swell include wind farms generator in power transmission systems. Firstly three phases unbalanced load flow analysis is executed to calculate difference electric network characteristics, levels of voltage, active and reactive power. After, discrete wavelet transform is combined with the probabilistic ECOC-SVM model to construct the classifier. Finally, the ECOC-SVM classifies and identifies the disturbance type according to the energy deviation of the discrete wavelet transform. The proposed method gives satisfactory accuracy with 99.2% compared with well known methods and shows that each power quality disturbances has specific deviations from the pure sinusoidal waveform, this is good at recognizing and specifies the type of disturbance generated from the wind power generator.

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基于混合小波变换和支持向量机的非平衡潮流纠错输出码在风能电能质量扰动分类中的应用

意图设计多类分类的最常见方法包括确定一组二进制分类器并将其组合。本文提出了带纠错输出码的支持向量机（ECOC-SVM）分类器，用于对输电系统中包括风电场发电机在内的谐波失真、电压暂降和电压暂升等电能质量扰动进行分类和表征。首先进行三相不平衡潮流分析，计算不同电网特性、电压水平、有功功率和无功功率。然后，将离散小波变换与概率ECOC-SVM模型相结合来构造分类器。最后，ECOC-SVM根据离散小波变换的能量偏差对扰动类型进行分类和识别。与已知方法相比，所提出的方法给出了99.2%的令人满意的精度，并表明每种电能质量扰动与纯正弦波形都有特定的偏差，这有利于识别和指定风力发电机产生的扰动类型。

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