A wide kernel CNN-LSTM-based transfer learning method with domain adaptability for rolling bearing fault diagnosis with a small dataset

Abstract: It is difficult to obtain sufficient data for some machines, in addition, different working conditions result in different distributions of training data and test data, which lead to the failure of traditional deep learning methods in engineering applications. To solve these problems, we propose a novel deep learning framework called 1D-WCLT for rolling bearing fault diagnosis that combines wide kernel deep convolutional neural network and long short-term memory (WDCNN-LSTM). In this approach, a wide convoluti… Show more

“…Azim et al [221] adopted the self-improved salp swarm optimization model to optimize the weights of LSTM and ANN for fine diagnosis of bearing faults. Zhu et al [222] proposed a deep learning framework combining wide kernel deep CNN and LSTM, which had good identification accuracy and applicability. Ahsan et al [223] proposed a deep convolution neural network (DCNN)-LSTM model with SoftMax classifier, which could automatically extract features from vibration signal.…”

Review of research on signal decomposition and fault diagnosis of rolling bearing based on vibration signal

“…Azim et al [221] adopted the self-improved salp swarm optimization model to optimize the weights of LSTM and ANN for fine diagnosis of bearing faults. Zhu et al [222] proposed a deep learning framework combining wide kernel deep CNN and LSTM, which had good identification accuracy and applicability. Ahsan et al [223] proposed a deep convolution neural network (DCNN)-LSTM model with SoftMax classifier, which could automatically extract features from vibration signal.…”

Review of research on signal decomposition and fault diagnosis of rolling bearing based on vibration signal

Intelligent Wear Condition Prediction of Ball Bearings Based on Convolutional Neural Networks and Lubricating Oil

Multiscale attention feature fusion network for rolling bearing fault diagnosis under variable speed conditions