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Deep Feature Clustering for Seeking Patterns in Daily Harmonic Variations

Chenjie Ge, Roger Alves de Oliveira, Irene Yu‐Hua Gu, Math Bollen

2020IEEE Transactions on Instrumentation and Measurement32 citationsDOI

Abstract

This article proposes a novel scheme for analyzing power system measurement data. The main question that we seek answers in this study is on “whether one can find some important patterns that are hidden in the large data of power system measurements such as variational data.” The proposed scheme uses an unsupervised deep feature learning approach by first employing a deep autoencoder (DAE) followed by feature clustering. An analysis is performed by examining the patterns of clusters and reconstructing the representative data sequence for the clustering centers. The scheme is illustrated by applying it to the daily variations of harmonic voltage distortion in a low-voltage network. The main contributions of the article include: 1) providing a new unsupervised deep feature learning approach for seeking possible underlying patterns of power system variation measurements and 2) proposing an effective empirical analysis approach for understanding the measurements through examining the underlying feature clusters and the associated reconstructed data by DAE.

Topics & Concepts

AutoencoderCluster analysisFeature (linguistics)Artificial intelligenceComputer sciencePattern recognition (psychology)Unsupervised learningDeep learningData miningDistortion (music)Machine learningPhilosophyLinguisticsComputer networkBandwidth (computing)AmplifierPower Quality and HarmonicsEnergy Load and Power ForecastingMachine Fault Diagnosis Techniques
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