Open-circuit fault diagnosis of power rectifier using sparse autoencoder based deep neural network

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Abstract

This paper is concerned with the open-circuit fault diagnosis of phase-controlled three-phase full-bridge rectifier by using a sparse autoencoder-based deep neural network (SAE-based DNN). Firstly, some preliminaries on SAE-based DNN are briefly introduced to automatically learn the representative fault features from the raw fault signals. Then, a novel strategy is developed to design the structure of the SAE-based DNN, by which the depth and hidden neurons of the SAE-based DNN could be regularly determined to extract the features of input signals. Furthermore, the fault model and system framework are presented to diagnose the open-circuit fault of the three-phase full-bridge rectifier. Finally, the effectiveness of the developed novel strategy is verified by the results of simulation experiments, and the superiority of the novel SAE-based DNN is evaluated by comparing with other frequently used approaches.

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Xu, L., Cao, M., Song, B., Zhang, J., Liu, Y., & Alsaadi, F. E. (2018). Open-circuit fault diagnosis of power rectifier using sparse autoencoder based deep neural network. Neurocomputing, 311, 1–10. https://doi.org/10.1016/j.neucom.2018.05.040

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