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An intelligent diagnosis method of rolling bearing based on multi-scale residual shrinkage convolutional neural network

Xiaoqiang Zhao, Yazhou Zhang

2022Measurement Science and Technology28 citationsDOI

Abstract

Abstract The vibration signals of rolling bearings are affected by changing operating conditions and environmental noise, so they are characterized by multi-scale complexity. Deep residual shrinkage network can achieve bearing fault diagnosis in strong noise environment, but ignore the multi-scale complexity feature. To address this problem, we propose a multi-scale residual shrinkage convolutional neural network for fault diagnosis of rolling bearing. In this method, a multi-scale residual shrinkage layer based on multi-scale learning and a residual shrinkage block is constructed. By stacking multiple multi-scale residual shrinkage layers, the features of vibration signals are automatically learned from the input data. In addition, to establish the connection of different vibration signals and to reduce the number of parameters in the network, we design a separable convolution block using residual connections and separable convolution. By verifying the effectiveness of the proposed method in Case Western Reserve University and Mechanical Failure Prevention Technology datasets, the results show that the proposed method not only has good noise resistance in strong noise environments, but also has high diagnostic accuracy and good generalization performance in different load condition domains. The proposed method is compared with three other deep learning methods under the same experimental conditions, and the results show that it is superior in rolling bearing fault diagnosis.

Topics & Concepts

ResidualComputer scienceConvolutional neural networkShrinkageBearing (navigation)Noise (video)Block (permutation group theory)Convolution (computer science)Artificial intelligenceVibrationArtificial neural networkPiecewiseScale (ratio)Fault (geology)Deep learningPattern recognition (psychology)AlgorithmMachine learningMathematicsAcousticsGeologyImage (mathematics)GeometryMathematical analysisSeismologyPhysicsQuantum mechanicsMachine Fault Diagnosis TechniquesGear and Bearing Dynamics AnalysisMechanical Failure Analysis and Simulation
An intelligent diagnosis method of rolling bearing based on multi-scale residual shrinkage convolutional neural network | Litcius