基于改进极值滤波和局部自适应阈值二值化的轮胎x射线图像杂质和气泡缺陷检测

2018 International Conference on Security, Pattern Analysis, and Cybernetics (SPAC) Pub Date : 2018-12-01 DOI:10.1109/SPAC46244.2018.8965439

Xiunan Zheng, Jianpei Ding, Zengzhi Pang, Jinping Li

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引用次数: 9

摘要

全钢子午线轮胎的制造工艺复杂。由于生产工艺复杂，轮胎不可避免地会出现一些缺陷。杂质和气泡是轮胎中两种典型的缺陷。本文采用改进的极值滤波和改进的局部自适应阈值二值化方法，提出了轮胎x射线图像中杂质和气泡缺陷的统一检测方法。首先，通过极值滤波将轮胎图像分割为背景和条纹;其次，采用改进的局部自适应阈值二值化方法从背景中分离缺陷;最后对图像进行去噪和标记处理。在实验中，我们使用一家轮胎厂生产的280个不同类型缺陷的轮胎来测试所提出的方法。对于清、模糊杂质和清气泡的检测，本方法的精密度可达97%，召回率为95.7%。需要注意的是，所提出的方法只能用于检测轮胎侧壁和胎肩的两种缺陷，我们称之为胎体。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Detection of Impurity and Bubble Defects in Tire X-Ray Image Based on Improved Extremum Filter and Locally Adaptive-threshold Binaryzation

The manufacturing technology of all steel radial tire is complex. Some defects will inevitably appear in the tire due to the complex production process. Impurity and bubble are two typical kinds of defects in the tire. In this study, a unified detection of impurity and bubble defects in tire X-ray images is proposed by means of improved extremum filter and improved locally adaptive-threshold binaryzation . Firstly, the tire image is divided into cords and background by extremum filter. Secondly, an improved locally adaptive-threshold binaryzation is used to separate defects from the background. Finally, image denoising and marking are processed. In the experiment, we tested the proposed approach by using 280 tires with various types of defects from a tire factory. For the detection of clear and blur impurities and clear bubbles, the precision of our method can reach 97%, and the recall is 95.7%. It is to be noted that the proposed method can only be used to detect those two defects in sidewall and shoulder of the tire which we refer as the carcass.

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来源期刊

2018 International Conference on Security, Pattern Analysis, and Cybernetics (SPAC)

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