摘要
针对钢板表面缺陷种类多、背景复杂、检测精度低等问题,文章首先对钢板表面缺陷数据集进行数据增强,并对原始Cascade区域卷积神经网络(region-basedconvolutional neural netwroks,R-CNN)算法进行改进,将ResNeXt-101-64×4d作为Cascade R-CNN算法的骨干网络,优化特征提取模块,利用递归特征金字塔(recursive feature pyramid,RFP)网络以反馈连接的方式进行特征优化,提出一种CR-RFPR101(Cascade R-CNN RFP ResNeXt-101-64×4d)的检测算法,以更好地保留细节和语义信息;同时使用可切换的空洞卷积替换主干网络的卷积层,以改变感受野的方式提高检测性能;最后使用引入软化非极大值抑制算法,保留有效信息,提高识别率。经实验验证,CR-RFPR101算法的检测率为83.4%,比原Cascade R-CNN算法提高了7.3%,满足了钢板表面缺陷检测要求。
In view of the multiple types,complex background and low detection accuracy of steel plate surface defects,the data set is enhanced and the original Cascade region-based convolutional neural networks(R-CNN)algorithm is improved.ResNeXt-101-64×4d is used as the backbone network of Cascade R-CNN algorithm to optimize feature extraction module.The recursive feature pyramid(RFP)network is used to optimize the features in the way of feedback connection,and a detection algorithm based on Cascade R-CNN RFP ResNeXt-101-64×4d(CR-RFPR101)is proposed to better retain the details and semantic information.Switchable atrous convolution is proposed to replace the convolution layer of the backbone network to improve the detection performance by changing the receptive field.Finally,the soft non-maximum suppression(Soft-NMS)algorithm is introduced to retain the effective information and improve the recognition rate.The experiment shows that the detection rate of CR-RFPR101 algorithm is 83.4%,which is 7.3% higher than that of the original Cascade R-CNN algorithm.The proposed algorithm meets the requirements of steel plate surface defect detection.
作者
李雪露
储茂祥
杨永辉
刘光虎
LI Xuelu;CHU Maoxiang;YANG Yonghui;LIU Guanghu(School of Electronics and Information Engineering,University of Science and Technology Liaoning,Anshan 114051,China)
出处
《合肥工业大学学报(自然科学版)》
CAS
北大核心
2023年第12期1651-1658,共8页
Journal of Hefei University of Technology:Natural Science
基金
国家自然科学基金资助项目(21978123)
辽宁省高等学校基本科研资助项目(2020LNZD06)。
