Deep learning for prognostics and health management: State of the art, challenges, and opportunities

•The state-of-the-art deep models in PHM applications have been overviewed.•The models are classified into generative, discriminative and hybrid categories.•The transfer learning and domain adaptation in the context of PHM are discussed.•Important challenges and future research directions have been...

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Vydáno v:Measurement : journal of the International Measurement Confederation Ročník 163; s. 107929
Hlavní autoři: Rezaeianjouybari, Behnoush, Shang, Yi
Médium: Journal Article
Jazyk:angličtina
Vydáno: London Elsevier Ltd 15.10.2020
Elsevier Science Ltd
Témata:
Acoustic emission
Acoustics
Aerospace engineering
Anomalies
Anomaly detection
Artificial neural networks
Condition monitoring
Declination
Deep learning
Domain adaptation
Fault diagnosis
Machine learning
Neural networks
Nuclear energy
Nuclear engineering
Nuclear reactors
Prognostics and health management
Reliability engineering
Signal monitoring
State-of-the-art reviews
Systems health monitoring
Vibration
Vibration monitoring
HI
NAS
CBLSTM
DNN
GDA
CPS
AdaBN
DL
MCMC
CPU
GPU
DBM
Deep learning
MLP
DBN
WPI
RNN
SDAE
FFT
RBF
EMA
JSD
WPT
RBM
SSAE
AE
AAE
MMD
CAE
SaaS
AI
Prognostics and health management
AFSA
PSO
Anomaly detection
PSR
RKH
SSDAE
SML
GAN
SAE
STPN
WJDA
RL
MSCNN
CNN
CORAL
PaaS
BLSTM
IIoT
CVAE
GDBM
KNN
GRU
SVM
Fault diagnosis
CLSTM
GRU-ED
PHM
HHT
WGAN
AHKL
SNR
Domain adaptation
TPU
DQN
ACGAN
CD
KL
LSTM
TDConvLSTM
DAD
IaaS
SPEV
DAE
SDAE-NCL
SCDA
CUDA
SGD
CDBN
LSTM-ED
TL
VAE
DA
ISSN:0263-2241, 1873-412X
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Shrnutí:•The state-of-the-art deep models in PHM applications have been overviewed.•The models are classified into generative, discriminative and hybrid categories.•The transfer learning and domain adaptation in the context of PHM are discussed.•Important challenges and future research directions have been provided. Improving the reliability of engineered systems is a crucial problem in many applications in various engineering fields, such as aerospace, nuclear energy, and water declination industries. This requires efficient and effective system health monitoring methods, including processing and analyzing massive machinery data to detect anomalies and performing diagnosis and prognosis. In recent years, deep learning has been a fast-growing field and has shown promising results for Prognostics and Health Management (PHM) in interpreting condition monitoring signals such as vibration, acoustic emission, and pressure due to its capacity to mine complex representations from raw data. This paper provides a systematic review of state-of-the-art deep learning-based PHM frameworks. It emphasizes on the most recent trends within the field and presents the benefits and potentials of state-of-the-art deep neural networks for system health management. In addition, limitations and challenges of the existing technologies are discussed, which leads to opportunities for future research.
Bibliografie:ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 14
ISSN:0263-2241
1873-412X
DOI:10.1016/j.measurement.2020.107929