Abderrezek, SamiraBourouis, Abdelhabib2025-04-212025-04-212021http://dspace.univ-oeb.dz:4000/handle/123456789/21945Deep learning is an efficient tool for Remaining Useful Life (RUL) estimation, which is crucial for intelligent prognosis and Condition-Based Maintenance (CBM) strategies. To achieve this task, Bidirectional long short-term memories have been preferred for their ability to identify patterns of temporal sequences independently, and Convolutional Autoencoder is performed in extracting features. To benefit from the advantages of these two deep learning models, this paper proposes their hybridization. We investigate the best configuration by varying the values of the hyperparameters and evaluating their impact on the new model’s performance. Finally, it is compared with other similar models in order to study the effectiveness of the approach.enCondition-based maintenance; Remaining Useful Life (RUL); Bidirectional Long-Short Term Memory neural network; Convolutional auto-encoder neural network; C-MAPSS datasetNovel approach to estimate remaining useful life in condition based maintenanceArticle