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Bearing Fault Diagnosis Based on Residual Networks and Grouped Two-Level Attention Mechanism for Multisource Signal Fusion

Bearing fault diagnosis is critical in the operation and maintenance of industrial equipment. By fusing signals from multiple sensors, complementary information that may be missed by a single sensor can… Click to show full abstract

Bearing fault diagnosis is critical in the operation and maintenance of industrial equipment. By fusing signals from multiple sensors, complementary information that may be missed by a single sensor can be compensated. However, with the increase in the number of sensors, current multisource signal fusion methods encounter challenges like feature dilution caused by signal mixing, increased model complexity, and information redundancy. To tackle these challenges, this article proposes a novel fault diagnosis method for bearings based on multisource signal fusion—the residual grouped two-level attention network (Res-GTLA-Net). First, multiple residual blocks with a kernel height of 1 are employed to extract features from the 2-D matrices converted from multisource signals, which avoids the increase in model complexity caused by multiple network branches and prevents the dilution of each signal’s unique features during feature extraction. Second, the proposed grouped two-level attention mechanism performs feature enhancement and fusion at both intragroup and intergroup levels, focusing on the most informative signals. Experimental results indicate that the Res-GTLA-Net performs better with more sensors.

Keywords: two level; multisource signal; fusion; grouped two; fault diagnosis; signal fusion

Journal Title: IEEE Transactions on Instrumentation and Measurement
Year Published: 2025

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