Abstract
Bearing fault diagnosis is an important part of rotating machinery maintenance. Existing diagnosis methods based on single-modal signals not only have unsatisfactory accuracy, but also bear the inherent risk of being misguided by single-modal signal noise. A new method is put forward that fuses multi-modal sensor signals, i.e. the data collected by an accelerometer and a microphone, to realize more accurate and robust bearing-fault diagnosis. The proposed method extracts features from raw vibration signals and acoustic signals, and fuses them using the 1D-CNN-based networks. Extensive experimental results obtained on ten groups of bearings are used to evaluate the performance of the proposed method. By analyzing the loss function and accuracy rate under different SNRs, it is empirically found that the proposed method achieves higher rate of diagnosis accuracy than the algorithms based on a single-modal sensor. Moreover, a visualization analysis is also conducted to investigate the inner mechanism of the proposed 1D-CNN-based method.
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