基于卷积神经网络的综合图像集点焊缺陷检测

2021 7th International Conference on Engineering, Applied Sciences and Technology (ICEAST) Pub Date : 2021-04-01 DOI:10.1109/ICEAST52143.2021.9426309

Akapot Tantrapiwat

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引用次数: 1

摘要

利用卷积神经网络(ConvNet)的深度学习技术检测焊接缺陷。这种技术需要大量的输入图像来训练网络。这是不实际的，因为有缺陷的工件是不希望的，而且往往是罕见的。本研究提出使用模拟缺陷点焊特征的合成图像作为输入数据集。通过复制不同尺寸、颜色和形状的热影响区环(HAZ)、熔合区环(FZ)和熔体环(Melt Ring)，利用Python编写的图像处理程序生成异常点焊图像和典型点焊图像。然后使用这些图像来训练两种不同级别的分类卷积神经网络。结果表明，利用2000张人工图像对缺陷点焊进行分类，准确率达到98%以上。最后建立了一套真实缺陷点焊图像测试集。结果也产生了类似的表现。

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Spot Welding Defect Detection Using Synthetic Image Dataset on Convolutional Neural Networks

Deep learning techniques using convolutional neural networks (ConvNet) was used to detect welding defects. This technique requires a large number of input images in order to train the network. This is not practical as the defective workpieces are undesirable and often rare. This study proposes the use of synthetic images which imitate the defective spot welding characteristic as the input dataset. By replicating Heat Effected Zone Ring(HAZ), Fusion Zone Ring (FZ)and Melt Ring in different size, color, and shape, both abnormal and typical spot welding images can be generated using image processing program written in Python. These images were then used to train two different levels of classification ConvNet. The results showed that by using two thousand artificial images, the ConvNet can classify the defective spot welding at the accuracy above 98%. Finally a test set of real defective spot welding images were carried out. The outcome also yielded the similar performance.

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2021 7th International Conference on Engineering, Applied Sciences and Technology (ICEAST)

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