{"title":"利用多光谱和机器学习技术快速准确地检测增材制造部件的缺陷。","authors":"Lingbao Kong, Xing Peng, Yao Chen","doi":"10.1089/3dp.2021.0191","DOIUrl":null,"url":null,"abstract":"<p><p>Traditional defect detection methods for metal additive manufacturing (AM) have the problems of low detection efficiency and accuracy, while the existing machine learning detection algorithms are of poor adaptability and complex structure. To address the above problems, this article proposed an improved You Only Look Once version 3 (YOLOv3) algorithm to detect the surface defects of metal AM based on multispectrum. The weighted <i>k</i>-means algorithm is used to cluster the target samples to improve the matching degree between the prior frame and the feature layer. The network structure of YOLOv3 is modified by using the lightweight MobileNetv3 to replace the Darknet-53 in the original YOLOv3 algorithm. Dilated convolution and Inceptionv3 are added to improve the detection capability for surface defects. A multispectrum measuring system was also developed to obtain the AM surface data with defects for experimental verification. The results show that the detection accuracy in the test set by YOLOv3-MobileNetv3 network is 11% higher than that by the original YOLOv3 network on average. The detection accuracy for cracking defects of the three types of defects is significantly increased by 23.8%, and the detection speed is also increased by 18.2%. The experimental results show that the improved YOLOv3 algorithm realizes the end-to-end surface defect detection for metal AM with high accuracy and fast speed, which can be further applied for online defect detection.</p>","PeriodicalId":54341,"journal":{"name":"3D Printing and Additive Manufacturing","volume":"10 3","pages":"393-405"},"PeriodicalIF":2.3000,"publicationDate":"2023-06-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10280201/pdf/","citationCount":"0","resultStr":"{\"title\":\"Fast and Accurate Defects Detection for Additive Manufactured Parts by Multispectrum and Machine Learning.\",\"authors\":\"Lingbao Kong, Xing Peng, Yao Chen\",\"doi\":\"10.1089/3dp.2021.0191\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Traditional defect detection methods for metal additive manufacturing (AM) have the problems of low detection efficiency and accuracy, while the existing machine learning detection algorithms are of poor adaptability and complex structure. To address the above problems, this article proposed an improved You Only Look Once version 3 (YOLOv3) algorithm to detect the surface defects of metal AM based on multispectrum. The weighted <i>k</i>-means algorithm is used to cluster the target samples to improve the matching degree between the prior frame and the feature layer. The network structure of YOLOv3 is modified by using the lightweight MobileNetv3 to replace the Darknet-53 in the original YOLOv3 algorithm. Dilated convolution and Inceptionv3 are added to improve the detection capability for surface defects. A multispectrum measuring system was also developed to obtain the AM surface data with defects for experimental verification. The results show that the detection accuracy in the test set by YOLOv3-MobileNetv3 network is 11% higher than that by the original YOLOv3 network on average. The detection accuracy for cracking defects of the three types of defects is significantly increased by 23.8%, and the detection speed is also increased by 18.2%. 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引用次数: 0
摘要
传统的金属增材制造(AM)缺陷检测方法存在检测效率低、精度不高的问题,而现有的机器学习检测算法适应性差、结构复杂。针对上述问题,本文提出了一种改进的基于多光谱的金属增材制造表面缺陷检测算法YOLOv3(You Only Look Once version 3)。采用加权 k-means 算法对目标样本进行聚类,以提高先验帧与特征层之间的匹配度。对 YOLOv3 的网络结构进行了修改,用轻量级的 MobileNetv3 代替原 YOLOv3 算法中的 Darknet-53。为了提高表面缺陷的检测能力,增加了稀释卷积和 Inceptionv3。此外,还开发了一套多光谱测量系统,用于获取带有缺陷的 AM 表面数据,以进行实验验证。结果表明,在测试集中,YOLOv3-MobileNetv3 网络的检测精度比原始 YOLOv3 网络平均高 11%。三类缺陷中裂纹缺陷的检测精度显著提高了 23.8%,检测速度也提高了 18.2%。实验结果表明,改进后的 YOLOv3 算法实现了金属 AM 端到端的表面缺陷检测,且检测精度高、速度快,可进一步应用于在线缺陷检测。
Fast and Accurate Defects Detection for Additive Manufactured Parts by Multispectrum and Machine Learning.
Traditional defect detection methods for metal additive manufacturing (AM) have the problems of low detection efficiency and accuracy, while the existing machine learning detection algorithms are of poor adaptability and complex structure. To address the above problems, this article proposed an improved You Only Look Once version 3 (YOLOv3) algorithm to detect the surface defects of metal AM based on multispectrum. The weighted k-means algorithm is used to cluster the target samples to improve the matching degree between the prior frame and the feature layer. The network structure of YOLOv3 is modified by using the lightweight MobileNetv3 to replace the Darknet-53 in the original YOLOv3 algorithm. Dilated convolution and Inceptionv3 are added to improve the detection capability for surface defects. A multispectrum measuring system was also developed to obtain the AM surface data with defects for experimental verification. The results show that the detection accuracy in the test set by YOLOv3-MobileNetv3 network is 11% higher than that by the original YOLOv3 network on average. The detection accuracy for cracking defects of the three types of defects is significantly increased by 23.8%, and the detection speed is also increased by 18.2%. The experimental results show that the improved YOLOv3 algorithm realizes the end-to-end surface defect detection for metal AM with high accuracy and fast speed, which can be further applied for online defect detection.
期刊介绍:
3D Printing and Additive Manufacturing is a peer-reviewed journal that provides a forum for world-class research in additive manufacturing and related technologies. The Journal explores emerging challenges and opportunities ranging from new developments of processes and materials, to new simulation and design tools, and informative applications and case studies. Novel applications in new areas, such as medicine, education, bio-printing, food printing, art and architecture, are also encouraged.
The Journal addresses the important questions surrounding this powerful and growing field, including issues in policy and law, intellectual property, data standards, safety and liability, environmental impact, social, economic, and humanitarian implications, and emerging business models at the industrial and consumer scales.
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