利用机器视觉系统增强人类引导的渐进式学习,实现稳健的表面缺陷检测

IF 8 1区 工程技术 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Swarit Anand Singh, Sahil J Choudhari, K.A. Desai
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引用次数: 0

摘要

机器视觉系统通常利用卷积神经网络(CNN)对制造部件进行在线表面缺陷检测。基于视觉的检测系统的预测能力会随着时间的推移而下降,因为在固定图像数据集上训练的缺陷检测模型无法适应偏差。本文提出了一种人为引导的渐进式学习方法,该方法可系统地向基于视觉的 CNN 检测系统学习新特征。该方法利用直观的用户界面来解决模型漂移问题,通过人类智能来增强表面缺陷检测模型。人类专家在特定条件下监控训练有素的模型性能,从而在实施过程中改变特征,识别错误分类,并启动重新训练。算法会累积分类错误的数据,直到达到预定义的阈值水平或人类专家终止检查。错误分类的结果与原始数据集合并,使用与基础模型开发类似的策略进行逐步再训练。本研究利用预训练的 CNN Efficientnet-b0 通过迁移学习开发锥形滚子检测的表面缺陷检测模型。结论是渐进式再训练提高了缺陷检测性能,减少了错误分类。从混淆矩阵得出的马修斯相关系数(MCC)得分在四次迭代后从 0.6 提高到 0.82。此外,还进行了一项跨模型基准研究,以显示所提方法的多功能性。本研究表明,人类引导的渐进式学习方法可以利用深度学习算法为基于视觉的表面缺陷检测提供适应性,并在实时实施过程中提高系统性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Augmenting human-guided progressive learning with machine vision systems for robust surface defect detection
Machine vision systems commonly utilize Convolutional Neural Networks (CNNs) for in-line surface defect detection of manufactured components. The prediction abilities of vision-based inspection systems deteriorate with time as the defect detection model trained on fixed image datasets fails to accommodate deviations. This paper proposes a human-guided progressive learning approach that systematically imparts learning of new features to the CNN-powered vision-based defect detection system. The approach augments the surface defect detection model with human intelligence, using an intuitive user interface to address model drift. The human expert monitors the trained model performance under specific conditions leading to the change of characteristics during implementation, identifies misclassifications, and initiates re-training. The algorithm accumulates misclassified data till a pre-defined threshold level is reached or a human expert terminates inspection. The misclassified results merge with the original datasets for progressive re-training using a strategy similar to the base model development. The present work utilizes pre-trained CNN Efficientnet-b0 to develop the surface defect detection model for tapered roller inspection through transfer learning. It is concluded that the progressive re-training improves defect detection performance and reduces misclassifications. The Matthews Correlation Coefficient (MCC) score, derived from the confusion matrix, showed improvement from 0.6 to 0.82 after four iterations. A cross-model benchmarking study is also performed to show the versatility of the proposed approach. The present work demonstrated that the human-guided progressive learning approach can provide adaptability to vision-based surface defect detection utilizing deep learning algorithms and enhance system performance during real-time implementation.
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来源期刊
Advanced Engineering Informatics
Advanced Engineering Informatics 工程技术-工程:综合
CiteScore
12.40
自引率
18.20%
发文量
292
审稿时长
45 days
期刊介绍: Advanced Engineering Informatics is an international Journal that solicits research papers with an emphasis on 'knowledge' and 'engineering applications'. The Journal seeks original papers that report progress in applying methods of engineering informatics. These papers should have engineering relevance and help provide a scientific base for more reliable, spontaneous, and creative engineering decision-making. Additionally, papers should demonstrate the science of supporting knowledge-intensive engineering tasks and validate the generality, power, and scalability of new methods through rigorous evaluation, preferably both qualitatively and quantitatively. Abstracting and indexing for Advanced Engineering Informatics include Science Citation Index Expanded, Scopus and INSPEC.
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