A deep reinforcement learning-driven multi-objective optimization and its applications on aero-engine maintenance strategy
Author:
Funder
National Natural Science Foundation of China
Publisher
Elsevier BV
Reference47 articles.
1. Aeropropulsion for commercial aviation in the twenty-first century and research directions needed;Epstein;AIAA J,2014
2. Real-time defect identification of narrow overlap welds and application based on convolutional neural networks;Miao;J Manuf Syst,2022
3. Model-driven deep unrolling: towards interpretable deep learning against noise attacks for intelligent fault diagnosis;Zhao;ISA Trans,2022
4. Fast sparsity-assisted signal decomposition with nonconvex enhancement for bearing fault diagnosis;Zhao;IEEE/ASME Trans Mechatron,2021
5. Time-varying trajectory modeling via dynamic governing network for remaining useful life prediction;Zhou;Mech Syst Signal Process,2023
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