Abstract
With the growth of nonlinear electrical equipment, power quality disturbances (PQDs) often appear in electrical systems. To solve this, a practical heuristic methodology for PQD detection and classification based on empirical wavelet transform has been proposed. By using a multiresolution analysis tool, empirical wavelet transform, the voltage waveform signal is decomposed into several sub-signals, and some potential features are extracted in the statistical method. To reduce the feature vector dimensions, the ReliefF algorithm is used for feature selection and optimized for dimensionality reduction, which reduces the complexity of system calculation while ensuring accuracy. Finally, a classifier based on support vector machines (SVM) was built, and with the ranked feature vectors’ input, the PQD can be recognized. The experimental results verify that the classification results achieved high accuracy, which confirms the properties and robustness of the proposed approach in noisy environments.
Highlights
By using a multiresolution analysis tool, an enhanced empirical wavelet transform, the voltage waveform signal is decomposed into several sub-signals
This paper presents a practical method for power quality disturbances (PQDs) event recognition
By using empirical wavelet transform and optimized parameters, the obtained signal is transformed into several intrinsic mode function components
Summary
Power quality disturbances (PQDs) are generated with the growth of nonlinear loads, such as solid-state switching equipment, electronically switched devices, industrial rectifiers, and inverters. Warped voltage waveforms adversely affect electronic devices, such as electrical system failures, disk crashes, and microcontroller failures [1]. It is essential to evaluate the power quality of the electric system by recognizing detailed disturbance events. By recognizing power quality events, an efficient strategy can be carried out to stabilize power grids. The patterns and the reasons for PQDs are multiple. A short trouble may result in a voltage fluctuation, which creates sag or other events [2]
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