计算机科学
稳健性(进化)
卷积(计算机科学)
卷积神经网络
方位(导航)
断层(地质)
模式识别(心理学)
特征提取
算法
人工智能
人工神经网络
生物化学
化学
地震学
基因
地质学
作者
Hailong Jin,Wuxu Ma,Zong Meng,Dengyun Sun,Wei Cao,Fengjie Fan
标识
DOI:10.1088/1361-6501/ac900c
摘要
Abstract The timely and accurate fault diagnosis of rolling bearings plays a vital role in ensuring the safe and reliable operation of many complex mechanical systems. However, most of the existing rolling bearing fault diagnosis models have complex structures, need a large number of samples, and cannot fully use the information contained in the signal. Based on these problems, an intelligent method for detecting and identifying rolling bearing faults is proposed based on an improved two-stream compression convolution network. The proposed method has a compact structure and powerful feature extraction capability, which consists of two modules. One adopts depthwise separable convolution and squeeze and excitation network, named DSCSE, which can fully extract the spatial features and greatly reduce the number of parameters. The other utilizes a one-dimensional convolutional neural network and spatial dropout mechanism, named 1DCNNSD, which can efficiently extract the temporal features and reduce model complexity. Meanwhile, to reduce the loss of information contained in the signal when the linear rectification unit is under negative input, the improved ReLU is designed. Numerous experiments demonstrate that the novel approach has higher accuracy, better generalization performance, and robustness than other methods under small samples.
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