Journal
IEEE ACCESS
Volume 10, Issue -, Pages 79962-79973Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/ACCESS.2022.3194525
Keywords
Feature extraction; Transforms; Discrete wavelet transforms; Circuit faults; Impedance; Voltage; Transient analysis; Classification; distribution grids; fault detection; Hermite transform; high impedance faults; multiresolution analysis; photovoltaic systems
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Funding
- Universidad Nacional Autonoma de Mexico [TA101121, IV100420]
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This study proposes a new algorithm for classifying high impedance faults (HIFs) in distribution systems using the Hermite transform as a signal processing technique. The algorithm allows analysis of signals at multiple resolution levels and different frequency bands, enabling efficient identification of HIFs and other fault types. Comparisons with the discrete wavelet transform as a signal decomposition model indicate better performance in discriminating HIFs from typical faults.
This work proposes a new algorithm to classify high impedance faults (HIFs) in distribution systems. HIFs can be represented by small current magnitudes with non-linear variations, which complicate their detection in distribution grids. The proposed method uses the Hermite transform (HT) as a signal processing technique that offers several advantages, one of the more important being the ability to analyze the signal at multiple resolution levels and at different frequency bands thanks to their filter functions based on Gaussian derivatives. The Hermite coefficients are used to extract signal features that allow efficient identification of the transient behaviour related to HIFs and other typical faults. In this sense, a multichannel approach based on the Hermite transform is proposed to classify different types of faults and HIFs. This analysis is carried out in a distribution network considering photovoltaic (PV) systems considering three different classifiers, which are also used to compare our results with the discrete wavelet transform (DWT) as signal decomposition model; the comparison suggests that our proposal presents better performance discriminating HIFs from typical faults.
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