2009
DOI: 10.1002/etep.345
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Feature extraction and recognition of UHF partial discharge signals in GIS based on dual‐tree complex wavelet transform

Abstract: SUMMARYUltra-high-frequency (UHF) partial discharge (PD) detection is an effective means for evaluation of dielectric condition of gas insulated switchgear (GIS). Time-resolved data pattern is utilized to recognize insulation defect because of its attractive advantages that there exists some direct relationship between the shape of PD signal and the physics of the defect. Therefore, the main task is feature extraction of time-resolved data. However, it is hard to extract features in time domain because there i… Show more

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Cited by 13 publications
(9 citation statements)
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“…This indicates that the proposed classification helps one to classify the discharges in GIS operated at different pressures and voltages. Xie et al [29] classified corona discharge, surface discharge, and particle movement by extracting the features from the UHF signal generated by the discharges by adopting a dual-tree complex wavelet transform. The efficiency of classification process is up to 92%.…”
Section: Selection Of Optimal Rbf Kernel Parametersmentioning
confidence: 99%
“…This indicates that the proposed classification helps one to classify the discharges in GIS operated at different pressures and voltages. Xie et al [29] classified corona discharge, surface discharge, and particle movement by extracting the features from the UHF signal generated by the discharges by adopting a dual-tree complex wavelet transform. The efficiency of classification process is up to 92%.…”
Section: Selection Of Optimal Rbf Kernel Parametersmentioning
confidence: 99%
“…This method has the benefit to effectively capture the amplitude and frequency variations in non-stationary signals compared to existing signal decomposition methods such as Empirical Mode Decomposition (EMD) [16]. PD signals are reported to be non-stationary [17], thus the obtained IMFs by ALIF may help to efficiently retrieve the unique time-frequency characteristics of each EMI event. Permutation Entropy (PE) is popular in biomedical application for electrocardiogram-type signals analysis and classification [18].…”
Section: Introductionmentioning
confidence: 99%
“…The first is based on the statistical regularities of the discharge on power cycles, such as figures in two or three dimensions [2][3][4][5], while the second is based on the real-time characteristics of PD signals [6]. The former reflects better on PD's physical features.…”
Section: Introductionmentioning
confidence: 99%