Maximal overlap discrete wavelet transform and deep learning for robust denoising and detection of power quality disturbance

This study presents a new technique for power quality (PQ) disturbance detection. The technique focuses on voltage sags and interruptions that are related to various faults, i.e. transmission line, feeder, and transformer faults. A maximal overlap discrete wavelet transform-based PQ detection algori...

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Veröffentlicht in:IET generation, transmission & distribution Jg. 14; H. 1; S. 140 - 147
Hauptverfasser: Xiao, Fei, Lu, Tianguang, Wu, Mingli, Ai, Qian
Format: Journal Article
Sprache:Englisch
Veröffentlicht: The Institution of Engineering and Technology 17.01.2020
Schlagworte:
backpropagation
deep learning
detection threshold
discrete wavelet transforms
disturbance initiation
feature extraction
improved stacked sparse denoising autoencoder
learning (artificial intelligence)
maximal overlap discrete wavelet transform
neural nets
power engineering computing
power quality disturbance detection
power supply quality
power system faults
power system harmonics
PQ detection algorithm
PQ disturbances
PQ recording
preprocessed PQ waveforms
Research Article
robust classifier
robust denoising
signal denoising
space vector transformation
transformer faults
voltage sags
detection threshold
maximal overlap discrete wavelet transform
power quality disturbance detection
disturbance initiation
signal denoising
power system faults
deep learning
PQ recording
feature extraction
transformer faults
robust classifier
space vector transformation
learning (artificial intelligence)
improved stacked sparse denoising autoencoder
power system harmonics
PQ disturbances
robust denoising
discrete wavelet transforms
preprocessed PQ waveforms
power engineering computing
power supply quality
voltage sags
backpropagation
PQ detection algorithm
neural nets
ISSN:1751-8687, 1751-8695
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Beschreibung
Zusammenfassung:This study presents a new technique for power quality (PQ) disturbance detection. The technique focuses on voltage sags and interruptions that are related to various faults, i.e. transmission line, feeder, and transformer faults. A maximal overlap discrete wavelet transform-based PQ detection algorithm is proposed to provide accurate points of disturbance initiation and recovery. The proposed PQ detection algorithm is robust even without a detection threshold and independent of the sampling frequency of PQ recording. In consideration of the presence of noise conditions, the preprocessed PQ waveforms are converted into 2D binary vectors using space vector transformation. Then, an improved stacked sparse denoising autoencoder combined with supervised backpropagation training is proposed as a robust classifier. Results show that the proposed method is suitable for detecting various types of PQ disturbances and possesses high recognition accuracy despite insufficient training samples.
ISSN:1751-8687
1751-8695
DOI:10.1049/iet-gtd.2019.1121