Journal
SENSORS
Volume 23, Issue 23, Pages -Publisher
MDPI
DOI: 10.3390/s23239494
Keywords
remaining useful life prediction; domain adaptive regression; maximum classifier discrepancy; local maximum mean discrepancy
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A bi-discrepancy network is proposed to address the issues in unsupervised domain adaptation methods. By detecting target samples with significant domain shifts and locally aligning fine-grained features, the accuracy of cross-domain prediction tasks is improved.
Most unsupervised domain adaptation (UDA) methods align feature distributions across different domains through adversarial learning. However, many of them require introducing an auxiliary domain alignment model, which incurs additional computational costs. In addition, they generally focus on the global distribution alignment and ignore the fine-grained domain discrepancy, so target samples with significant domain shifts cannot be detected or processed for specific tasks. To solve these problems, a bi-discrepancy network is proposed for the cross-domain prediction task. Firstly, target samples with significant domain shifts are detected by maximizing the discrepancy between the outputs of the dual regressor. Secondly, the adversarial training mechanism is adopted between the feature generator and the dual regressor for global domain adaptation. Finally, the local maximum mean discrepancy is used to locally align the fine-grained features of different degradation stages. In 12 cross@-domain prediction tasks generated on the C-MAPSS dataset, the root-mean-square error (RMSE) was reduced by 77.24%, 61.72%, 38.97%, and 3.35% on average, compared with the four mainstream UDA methods, which proved the effectiveness of the proposed method.
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