Abstract
Deep learning has been a widely adopted approach to achieve the remaining useful life prediction (RUL) of rolling bearing. However, the architectures of the current proposed deep learning approaches are limited and the prediction result is less stable on account of the single sensory data adopted. To address this issue, a new cascade fusion cascade convolutional long-short time memory network is proposed for bearing RUL prediction, in which a cross connection block is formulated to fuse the information streams from the adjacent channels twice and a concentration operation is also affiliated in the end of the network to integrate the separated information streams into an ensemble form. Meanwhile, a convolutional long-short time memory network is adopted as the basic cell in the proposed network on account of its ability to reflect the spatial-temporal correlation of the representative features. Moreover, a smoothing method based on multi-averaging operation is constructed in the prediction phase to largely eliminate the fluctuation in the prediction results. The application on the experimental bearing degradation dataset is able to verify the superiority and stability of the proposed method in comparison with the other comparison methods.
Highlights
Since rolling bearing has been extensively used as the main supporting component in rotating machines, its performance will greatly affect the reliability and stability of the whole mechanical system
A wide range of bearing remaining useful life (RUL) prediction techniques has been provided in reference and these techniques can be mainly divided into two groups [5]–[11]: one is the mechanism model based prediction method and the other is the data-driven based prediction method
In this study, a cascade fusion architecture is proposed based on the foundation of the ConvLSTM cell, in which a cross connection block is formulated to make a fusion of the information from the adjacent channels twice and a concentration operation at the end of the two information streams is able to integrate them into one ensemble form
Summary
Since rolling bearing has been extensively used as the main supporting component in rotating machines, its performance will greatly affect the reliability and stability of the whole mechanical system. The prognostic results in the above mentioned references illustrated that information fusion approach is effective to improve the accuracy and stability of the prognostic results in comparison with these techniques using only single sensory data This motivates us to establish an information fusion based network structure in this study. To make an improvement of the current information fusion based prognostic methods, a cascade fusion ConvLSTM network (CF-ConvLSTM) is proposed to achieve the bearing RUL prediction in this study. The proposed model is able to fuse the representative features from the multiple sensory data to provide a more accuracy and stable prognostic result. The main contributions of this study are highlighted as follows: 1) We establish a CF-ConvLSTM model to extract the representative features form multiple sensory data for bearing RUL prediction.
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