Liangwei Zhang scite author profile

Deep learning has attracted intense interest in Prognostics and Health Management (PHM), because of its enormous representing power, automated feature learning capability and best-in-class performance in solving complex problems. This paper surveys recent advancements in PHM methodologies using deep learning with the aim of identifying research gaps and suggesting further improvements. After a brief introduction to several deep learning models, we review and analyze applications of fault detection, diagnosis and prognosis using deep learning. The survey validates the universal applicability of deep learning to various types of input in PHM, including vibration, imagery, time-series and structured data. It also reveals that deep learning provides a one-fits-all framework for the primary PHM subfields: fault detection uses either reconstruction error or stacks a binary classifier on top of the network to detect anomalies; fault diagnosis typically adds a soft-max layer to perform multi-class classification; prognosis adds a continuous regression layer to predict remaining useful life. The general framework suggests the possibility of transfer learning across PHM applications. The survey reveals some common properties and identifies the research gaps in each PHM subfield. It concludes by summarizing some major challenges and potential opportunities in the domain.

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A novel approach of multisensory fusion to collaborative fault diagnosis in maintenance

Shao

et al. 2021

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Attitude data-based deep hybrid learning architecture for intelligent fault diagnosis of multi-joint industrial robots

Long

Mou

Zhang

et al. 2021

Journal of Manufacturing Systems

109

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Liangwei Zhang

Small molecule inhibitors of mammalian thioredoxin reductase

A Review on Deep Learning Applications in Prognostics and Health Management

A novel approach of multisensory fusion to collaborative fault diagnosis in maintenance

Attitude data-based deep hybrid learning architecture for intelligent fault diagnosis of multi-joint industrial robots

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