Cross-domain intelligent diagnostics for rotating machinery using domain adaptive and adversarial networks

IF 10.4 1区 计算机科学 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS Journal of Industrial Information Integration Pub Date : 2024-11-01 DOI:10.1016/j.jii.2024.100722
Kui Hu , Yiwei Cheng , Jun Wu , Haiping Zhu
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引用次数: 0

Abstract

Accurate fault diagnosis of rotating machinery is critical to avoid catastrophic accidents. However, insufficient fault data seriously limit the performance of fault diagnosis in industrial applications. In this paper, a novel domain adaptive and adversarial network (DAAN) is proposed for data-driven fault diagnosis of the rotating machinery, which consists of a deep feature extractor, a domain classifier, and a label adaptive predictor. The deep feature extractor and domain classifier are constructed to obtain domain-invariant features by domain-adversarial training. Then, in the label adaptive predictor, a domain adaptation technique is used to reduce the feature discrepancy between the source domain and the target domain, so as to establish a mapping relationship between the data feature distribution of the two domains. Furtherly, a new transfer diagnosis method is proposed by using the DAAN, which combines the data generated by experimental simulation with deep transfer learning, to realize end-to-end intelligent fault diagnosis of the in-service machinery with few unlabeled fault samples. The proposed method explores a new solution for applying laboratory data to intelligent fault diagnosis in real scenarios. Several transfer experiments are implemented to verify the effectiveness of the proposed method by using 55 roller bearings and 4 gearboxes under various scenarios. The experimental results show that the diagnostic performance of proposed method is much better than other transfer learning methods and non-transfer learning methods.
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利用域自适应和对抗网络进行旋转机械的跨域智能诊断
旋转机械的准确故障诊断对于避免灾难性事故至关重要。然而,故障数据不足严重限制了故障诊断在工业应用中的性能。本文提出了一种用于旋转机械数据驱动故障诊断的新型域自适应对抗网络(DAAN),它由深度特征提取器、域分类器和标签自适应预测器组成。深度特征提取器和域分类器通过域对抗训练获得域不变特征。然后,在标签自适应预测器中,使用域自适应技术来减少源域和目标域之间的特征差异,从而建立两个域的数据特征分布之间的映射关系。此外,利用 DAAN 提出了一种新的迁移诊断方法,将实验仿真生成的数据与深度迁移学习相结合,实现了在役机械端到端智能故障诊断,只需少量未标记的故障样本。所提出的方法为将实验室数据应用于真实场景中的智能故障诊断探索了一种新的解决方案。通过使用 55 个滚动轴承和 4 个齿轮箱在不同场景下进行转移实验,验证了所提方法的有效性。实验结果表明,所提方法的诊断性能远远优于其他迁移学习方法和非迁移学习方法。
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来源期刊
Journal of Industrial Information Integration
Journal of Industrial Information Integration Decision Sciences-Information Systems and Management
CiteScore
22.30
自引率
13.40%
发文量
100
期刊介绍: The Journal of Industrial Information Integration focuses on the industry's transition towards industrial integration and informatization, covering not only hardware and software but also information integration. It serves as a platform for promoting advances in industrial information integration, addressing challenges, issues, and solutions in an interdisciplinary forum for researchers, practitioners, and policy makers. The Journal of Industrial Information Integration welcomes papers on foundational, technical, and practical aspects of industrial information integration, emphasizing the complex and cross-disciplinary topics that arise in industrial integration. Techniques from mathematical science, computer science, computer engineering, electrical and electronic engineering, manufacturing engineering, and engineering management are crucial in this context.
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