Abstract

Deep learning has been wildly utilized in the remaining useful life (RUL) prediction of rolling bearings. Extracting valuable features effectively is a challenging task in this field. In this paper, we propose a novel competitive temporal convolutional network (CTCN) to predict the RUL of rolling bearings. Firstly, a novel dual competitive attention (DCA) is proposed to enhance the feature extraction of the deep learning model. In DCA, a unique global competition (GC) module is designed to gather the global large-pooled features as the benchmark of attention calculation, and a new multidimensional competition (MC) module is proposed to fuse the attention in two dimensions. Then, a competitive temporal convolutional block (CTCB) based on the DCA and temporal convolutional network (TCN) is designed to extract high-level features from the input sequences. Finally, a CTCN is constructed to map the original vibration signals to the RUL. The experimental results illustrate that the proposed CTCN is effective, and DCA can significantly improve the accuracy of RUL prediction. The ablation experiments show that the proposed GC and MC can improve the performance of the proposed attention. They reduce the root mean square error on average by 0.0095/8.76% and 0.0031/2.95%, the mean absolute error on average by 0.0074/ 8.46% and 0.0033/3.82%.