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Article Dans Une Revue Aerospace Année : 2023

An Explainable Artificial Intelligence Approach for Remaining Useful Life Prediction

Résumé

Prognosis and health management depend on sufficient prior knowledge of the degradation process of critical components to predict the remaining useful life. This task is composed of two phases: learning and prediction. The first phase uses the available information to learn the system’s behavior. The second phase predicts future behavior based on the available information of the system and estimates its remaining lifetime. Deep learning approaches achieve good prognostic performance but usually suffer from a high computational load and a lack of interpretability. Complex feature extraction models do not solve this problem, as they lose information in the learning phase and thus have a poor prognosis for the remaining lifetime. A new prepossessing approach is used with feature clustering to address this issue. It allows for restructuring the data into homogeneous groups strongly related to each other using a simple architecture of the LSTM model. It is advantageous in terms of learning time and the possibility of using limited computational capabilities. Then, we focus on the interpretability of deep learning prognosis using Explainable AI to achieve interpretable RUL prediction. The proposed approach offers model improvement and enhanced interpretability, enabling a better understanding of feature contributions. Experimental results on the available NASA C-MAPSS dataset show the performance of the proposed model compared to other common methods.
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Origine : Publication financée par une institution
Licence : CC BY - Paternité

Dates et versions

hal-04102284 , version 1 (20-07-2023)

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Paternité

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Genane Youness, Adam Aalah. An Explainable Artificial Intelligence Approach for Remaining Useful Life Prediction. Aerospace, 2023, 10 (5), pp.1-23. ⟨10.3390/aerospace10050474⟩. ⟨hal-04102284⟩
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