Identification of Partial Discharges in Gas-insulated Switchgear by Ultra-high-frequency Technique and Classification by Adopting Multi-class Support Vector Machines

R. UMAMAHESWARI; R. SARATHI

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Identification of Partial Discharges in Gas-insulated Switchgear by Ultra-high-frequency Technique and Classification by Adopting Multi-class Support Vector Machines

机译：超高频技术识别气体绝缘开关柜中的局部放电，并采用多类支持向量机进行分类

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摘要

Ultra-high-frequency signals are generated due to particle movement, floating conductors, corona, and surface discharges in gas-insulated switchgear. The ultra-high-frequency signal generated due to particle movement is independent of operating pressure and applied voltage. The bandwidth of the ultra-high-frequency signal formed due to corona and surface discharges vary with applied voltage. In a ternary plot, each type of discharge has a unique location. If a variety of discharge occurs simultaneously, it is difficult to classify the type of discharges through the ternary plot. It is demonstrated that the type of discharge can be classified efficiently by adopting a multi-class support vector machine.

机译：气体绝缘开关设备中的粒子运动，浮动导体，电晕和表面放电会产生超高频信号。由于粒子运动而产生的超高频信号与工作压力和施加电压无关。由于电晕和表面放电而形成的超高频信号的带宽随施加的电压而变化。在三元图中，每种放电类型都有一个唯一的位置。如果同时发生多种放电，则很难通过三元图对放电类型进行分类。结果表明，采用多类支持向量机可以有效地对放电类型进行分类。

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来源
《Electric Power Components and Systems》 |2011年第16期|p.1577-1595|共19页
作者
R. UMAMAHESWARI; R. SARATHI;
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作者单位

Department of Electrical Engineering, Indian Institute of Technology Madras, Chennai, India;

Department of Electrical Engineering, Indian Institute of Technology Madras, Chennai, 600 036, India;

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原文格式 PDF
正文语种 eng
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关键词
partial discharge; high voltage; on-line monitoring; corona; gas-insulated switchgear; SF_6; ultra-high frequency; support vector machine; discharges;

机译：局部放电高压;在线监控;电晕;气体绝缘开关设备;SF_6;超高频支持向量机放电;

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Identification of Partial Discharges in Gas-insulated Switchgear by Ultra-high-frequency Technique and Classification by Adopting Multi-class Support Vector Machines

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