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A Bearing Fault Diagnosis Method With Implementation of Multiscale Time–Frequency Feature Fusion and Bidirectional Information Interaction

融合 信息融合 时频分析 特征(语言学) 断层(地质) 计算机科学 方位(导航) 传感器融合 特征提取 人工智能 模式识别(心理学) 电子工程 工程类 计算机视觉 地质学 地震学 哲学 滤波器(信号处理) 语言学
作者
Long Zhang,Jinbo Wang,Qian Xiao,Yutao Luo,Zhibo Wang,Chaobing Wang,Jiayang Liu
出处
期刊:IEEE Sensors Journal [IEEE Sensors Council]
卷期号:25 (13): 23740-23756 被引量:5
标识
DOI:10.1109/jsen.2025.3568401
摘要

To address the engineering diagnostic challenge of single-scale features being insufficient to comprehensively characterize complex fault patterns under strong background noise, this paper proposes a bidirectional interactive multi-scale time-frequency feature fusion method. While multi-scale frameworks have demonstrated effectiveness in extracting rich features, existing approaches are confined to single-domain feature extraction. Furthermore, the bidirectional flow and interaction of information during multi-scale feature fusion are often overlooked. To overcome this limitation, this study proposes a novel multi-scale time-frequency feature fusion method with bidirectional information interaction for bearing fault diagnosis. Firstly, the data are preprocessed by combining fast Fourier transform (FFT) and variational modal decomposition (VMD) to construct multi-scale time-frequency features. Then, adaptive multi-scale convolutional neural network (AMCNN) is proposed to extract local features at different scales. Meanwhile, self-attention mechanism of Transformer architecture is utilized to enhance the capture and encoding of global features. After that, bidirectional cross-attention module is proposed to facilitate bidirectional interaction and fusion between global and local features for obtaining more discriminative outputs. Finally, the effectiveness and superiority of the proposed method are validated on three bearing datasets. Experimental results demonstrate that the proposed framework achieves better diagnostic accuracy and stability compared to state-of-the-art methods.
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