Partial Domain Intelligent Diagnosis Method for Rotor-Bearing System Based on Deep Learning

Xiaoyue Liu, Cong Peng
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Abstract

Recently, deep transfer learning (TL) has successfully addressed the problem of fault diagnosis under variable operating conditions. Existing methods default that the source and target domains have the same label space, and solve distribution discrepancy problem under different working conditions by aligning their feature distributions. However, in the practical industry, is unlikely to guarantee the health conditions of the target domain data are consistent with the source domain. Therefore, industrial applications usually face the challenge of more difficult partial domain diagnosis scenarios. In this paper, a deep partial domain adaptation network based on a balanced alignment constraint strategy is proposed to realize cross-domain diagnosis. The proposed method combines balanced augmentation and subdomain alignment, which can effectively facilitate the positive transfer of shared categories. Meanwhile, the conditional entropy minimization is introduced to encourage the predictions of target domain samples with high confidence. The experimental results on the rolling bearing dataset verify the effectiveness and feasibility of the proposed method in handling the actual partial domain fault diagnosis problem.
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基于深度学习的转子-轴承系统局部域智能诊断方法
近年来,深度迁移学习(TL)成功地解决了变工况下的故障诊断问题。现有方法默认源域和目标域具有相同的标签空间,通过对齐它们的特征分布来解决不同工作条件下的分布差异问题。然而,在实际行业中,不太可能保证目标域的健康状况数据与源域的数据一致。因此,工业应用通常面临更困难的部分域诊断场景的挑战。本文提出了一种基于平衡对齐约束策略的深度局部域自适应网络,实现了跨域诊断。该方法结合了均衡增广和子域对齐,能够有效地促进共享类别的正向迁移。同时,引入条件熵最小化来鼓励高置信度的目标域样本的预测。在滚动轴承数据集上的实验结果验证了该方法在处理实际的部分域故障诊断问题中的有效性和可行性。
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