改进的卷积神经网络在电缆隧道指示照明异常识别中的应用

Xingyu Pei, Shuntao Huang, Jiangjing Cui, Wei Qiu, D. Liu, Anbo Meng
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引用次数: 1

摘要

针对电缆隧道内光线较弱的情况,提出了一种基于卷积神经网络的设备异常识别方法。本文提出了一种基于卷积神经网络的电缆隧道内弱光情况下设备异常识别方法。该方法在灰度图像的基础上,加入Sobel算子增强边缘预处理效果,并通过卷积神经网络(CNN)开始训练。收敛准则是与权重参数W和偏置参数b相关的损失函数。收敛方法是一种称为反向传播的方法,每次更新参数以减少损失。全连接层运行速度快,可以直接得到图像中设备状态的分类结果。通过对珠海隧道内部图像的实验分析,可以看出该方法适用于隧道黑暗、混乱的环境。对照明设备的图像分割具有较高的识别率,对图像异常情况的分类具有较高的准确率。
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An improved Convolutional Neural Network used in abnormality identification of Indicating Lighting in Cable Tunnels
This paper proposes a method to identify the equipment anomalies based on convolution neural network, aiming at the weak-light situation inside the cable tunnel. This paper has proposed a method to identify the equipment anomalies with weak light situation inside the cable tunnel, based on the convolution neural network. On the basis of the gray image, this method adds the Sobel operator to enhance edge-preprocessing effect and start training through Convolution Neural Network (CNN). The convergence criteria is the Loss Function related with the Weight Parameter W and Bias Parameter b. The convergence method is the one named Backpropagation, which updates the parameters each time to reduce the loss. The fast operating speed of full connection layer can help getting the direct classification result of equipment status in the image. Based on the experimental analysis of the internal images of the Zhuhai tunnel, it can be seen that this method is suitable for the dark and chaotic environment of the tunnel. Additionally, it has a high recognition rate for the image segmentation of the lighting equipment and a high accuracy for the classification of the abnormal situation of the image.
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