Real-Time Detection of Power Quality Disturbance Using Fast Fourier Transform and Adaptive Neuro-Fuzzy Inference System

Jurnal Rekayasa Elektrika Pub Date : 2024-03-05 DOI:10.17529/jre.v20i1.33695

Ahmad Alvi Syahrin, D. O. Anggriawan, Eka Prasetyono, Epyk Sunarno, E. Wahjono, I. Sudiharto, S. Suhariningsih

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Abstract

Power quality disturbances cause equipment damage or financial losses. Therefore, the electric power system needs to identify and distinguish any power quality disturbances to reduce problems. This paper proposes hybrid methods combining FFT and ANFIS algorithm for detection of power quality disturbances. There are 11 types of power quality disturbances that can be detected, such as sag, swell, undervoltage, overvoltage, voltage flicker, voltage harmonic, sag + harmonic, swell + harmonic, undervoltage + harmonic, overvoltage + harmonic, and flicker + harmonic. The parameters used to detect disturbances are Vrms, Duration, THDv (Total Harmonic Distortion voltage), and Fluctuation-Count. The detection process starts by sensing voltage and calculating all the parameters, where THDv was obtained by Fast Fourier Transform. All the parameters such as Vrms, Duration, THDv, and Fluctuation-Count are processed by Adaptive Neuro-Fuzzy Inference System, and the result is the type of disturbance. Matlab simulations show that the suggested method performs outstandingly to identify 11 type of Power Quality Disturbances with 99.3% accuracy.

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利用快速傅立叶变换和自适应神经模糊推理系统实时检测电能质量干扰

电能质量干扰会造成设备损坏或经济损失。因此，电力系统需要识别和区分任何电能质量干扰，以减少问题的发生。本文提出了结合 FFT 和 ANFIS 算法的混合方法来检测电能质量干扰。可检测的电能质量干扰有 11 种，如下陷、胀大、欠压、过压、电压闪变、电压谐波、下陷 + 谐波、胀大 + 谐波、欠压 + 谐波、过压 + 谐波和闪变 + 谐波。用于检测干扰的参数包括 Vrms、持续时间、THDv（总谐波失真电压）和波动次数。检测过程从感应电压和计算所有参数开始，其中 THDv 通过快速傅里叶变换获得。自适应神经模糊推理系统对所有参数，如 Vrms、持续时间、THDv 和波动计数进行处理，得出干扰类型。Matlab 仿真表明，所建议的方法在识别 11 种电能质量干扰方面表现出色，准确率高达 99.3%。

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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Jurnal Rekayasa Elektrika

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审稿时长

24 weeks