Applied Sciences, Vol. 13, Pages 7069: A New Defect Diagnosis Method for Wire Rope Based on CNN-Transformer and Transfer Learning

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Applied Sciences, Vol. 13, Pages 7069: A New Defect Diagnosis Method for Wire Rope Based on CNN-Transformer and Transfer Learning

Applied Sciences doi: 10.3390/app13127069

Authors: Mingyuan Wang Jishun Li Yujun Xue

Accurate wire rope defect diagnosis is crucial for the health of whole machinery systems in various industries and practical applications. Although the loss of metallic cross-sectional area signals is the most widely used method in non-destructive wire rope evaluation methods, the weakness and scarcity of defect signals lead to poor diagnostic performance, especially in diverse conditions or those with noise interference. Thus, a new wire rope defect diagnosis method is proposed in this study. First, empirical mode decomposition and isolation forest methods are applied to eliminate noise signals and to locate the defects. Second, a convolution neural network and transformer encoder are used to design a new wire rope defect diagnosis network for the improvement of the feature extraction ability. Third, transfer learning architecture is established based on gray feature images to fine-tune the pre-trained model using a small target domain dataset. Finally, comparison experiments and a visualization analysis are conducted to verify the effectiveness of the proposed methods. The results demonstrate that the presented model can improve the performance of the wire rope defect diagnosis method under cross-domain conditions. Additionally, the transfer feasibility of transfer learning architecture is discussed for future practical applications.

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