Wavelet Transform and Support Vector Machine- Based Current-Only Directional Overcurrent Relay for Transmission Line Protection

2018 IEEE PES Transmission & Distribution Conference and Exhibition - Latin America (T&D-LA) Pub Date : 2018-09-01 DOI:10.1109/TDC-LA.2018.8511709

Cristina J. Trávez, Fabián E. Pérez, F. Quilumba

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引用次数: 3

Abstract

Conventionally, for power protective relay applications, overcurrent relaying is made directional by use of two inputs, the operating current and a reference or polarizing quantity (either voltage or current) that does not change with fault location. This work presents a pattern model, which is capable of providing the characteristic of directionality to a nondirectional overcurrent relay that is installed on a transmission line by monitoring the current signal only, without the reference signal. In addition, a second model which has the ability to identify the type of fault occurred in the protected line is presented. The electrical test system was implemented in ATP/EMTP program, and simulations were driven by a MATLAB program for several short-circuit fault types at different distances. The simulation results constitute the database. These files were processed and analyzed on MATLAB platform mainly using two mathematical tools: Wavelet Transform and Support Vector Machine. Finally, a graphical user interface was implemented for academic purposes, so the user can easily and didactically appreciate the developed methodology, as well as its effectiveness.

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基于小波变换和支持向量机的输电线路纯电流定向过流保护

通常，对于电力保护继电器应用，过流继电器通过使用两个输入，即工作电流和一个不随故障位置变化的参考或极化量(电压或电流)来定向。本工作提出了一种模式模型，该模型能够通过仅监测电流信号而不监测参考信号来为安装在传输线上的无方向性过流继电器提供方向性特性。此外，还提出了一种能够识别被保护线路中发生的故障类型的第二种模型。在ATP/EMTP程序中实现了电气测试系统，并利用MATLAB程序对不同距离的几种短路故障类型进行了仿真。仿真结果构成了数据库。在MATLAB平台上主要使用小波变换和支持向量机两种数学工具对这些文件进行处理和分析。最后，为学术目的实现了一个图形用户界面，因此用户可以很容易地和教学地欣赏开发的方法，以及它的有效性。

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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2018 IEEE PES Transmission & Distribution Conference and Exhibition - Latin America (T&D-LA)

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