A concise self-adapting deep learning network for machine remaining useful life prediction

Most remaining useful life (RUL) prediction methods learn the feature using a single fixed pattern, resulting in a lack of self-adapting learning capability and a decrease in generalization and prediction accuracy. To address this issue, we propose a concise self-adapting deep learning network (CSDL...

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Vydáno v:Mechanical systems and signal processing Ročník 191; s. 110187
Hlavní autoři: Xiang, Sheng, Qin, Yi, Luo, Jun, Wu, Fei, Gryllias, Konstantinos
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier Ltd 15.05.2023
Témata:
Adaptive learning
Aero-engine
Involution
Multi-input
RUL prediction
Wind turbine
RUL prediction
Adaptive learning
Aero-engine
Involution
Multi-input
Wind turbine
ISSN:0888-3270, 1096-1216
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Shrnutí:Most remaining useful life (RUL) prediction methods learn the feature using a single fixed pattern, resulting in a lack of self-adapting learning capability and a decrease in generalization and prediction accuracy. To address this issue, we propose a concise self-adapting deep learning network (CSDLN) for RUL prediction with fewer learnable parameters per sub-module. First, a multi-branch 1D involution neural network (MINN) is proposed to adaptively extract the hidden feature from the multi-input using the involution operation, which has inverse inherence with the convolution operation. Second, an adaptive learning algorithm called the multi-head gated recurrent unit (MGRU) is proposed to learn the hidden feature. Finally, the aero-engine RUL is determined by dimension reduction of the full connection (FC) layer and linear regression of the regression layer. Additionally, rather than using the ReLU activation function, the Mish activation function is used to strengthen the self-adapting deep learning ability in CSDLN. The performance in the Commercial Modular Aero Propulsion System Simulation (C-MAPSS) dataset and the real wind turbine gearbox bearing tests demonstrate the superiority of CSDLN over the state-of-the-art RUL prediction methods. Meanwhile, dropout is adopted in the model for avoiding overfitting and achieving the uncertainty quantification of RUL prediction in the two applications.
ISSN:0888-3270
1096-1216
DOI:10.1016/j.ymssp.2023.110187