Journal
MEASUREMENT
Volume 187, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.measurement.2021.110332
Keywords
Fault diagnosis; Rolling element bearing; Deep transfer learning; Joint distribution adaptation
Funding
- National Natural Science Foundation of China [51775343]
- Shanghai Pujiang Program [18PJC031]
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This paper introduces a transfer network based on joint distribution adaptation, with a diverse feature aggregation module added to enhance feature extraction capability and automatically reduce distribution discrepancy. Experimental results demonstrate that the framework achieves significant diagnostic performance in the TDM scenario.
On account of lacking labeled samples for the bearing fault diagnosis in real engineering applications, transfer learning is widely investigated for transferring diagnosis information. A more challenging but realistic scenario called transfer across different machines (TDM) is investigated in this paper where previous approaches may degenerate greatly with more drastic domain shifts. A joint distribution adaptation-based transfer network with diverse feature aggregation (JDFA) is proposed, where the diverse feature aggregation module is added to enhance feature extraction capability across large domain gaps. Then the joint maximum mean discrepancy between source and target domain samples is adopted to reduce the distribution discrepancy automatically. Extensive TDM transfer learning experiments are conducted. The average accuracy reaches 99.178% that is much higher than state-of-the-art methods, demonstrating the proposed JDFA framework can effectively achieve superior diagnostic performance, and significantly promote fault diagnosis research under TDM scenario in view of applicability and practicability of algorithms.
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