Defect Detection in Woven Fabrics by Analysis of Co-occurrence Texture Features as a Function of Gray-level Quantization and Window Size

IF 0.4 Q4 ENGINEERING, MULTIDISCIPLINARY

Engineer-Journal of the Institution of Engineers Sri Lanka Pub Date : 2021-12-30 DOI:10.4038/engineer.v54i4.7470

P. S. H. Pallemulla, S. Sooriyaarachchi, C. R. De Silva, C. Gamage

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引用次数: 2

Abstract

In this experimental research, the effects of gray-level quantization and tiling window size on 22 gray-level co-occurrence matrix features were investigated in the context of automated woven fabric defect detection. A dataset comprising 1426 128×128 images was used, in which defective and the defect-free images were split in a 50:50 ratio. Experiments were carried out with seven quantization levels (LL = 4, 8, 16, 32, 64, 128 and 256) and four window sizes (NN = 8, 16, 32, 64). The features were extracted from each image in the training set for each< LL,NN >combination and thereafter were ranked using the joint mutual information metric. Next, for each < LL,NN > combination, a k-nearest neighbour classifier was trained, first with only the highest-ranking feature and thereafter iteratively by adding features of lower ranks. It was observed that a minimum of nine features were needed to achieve an acceptable (>90%) F1 score for any < LL,NN >combination, except when NN is relatively large. The two features that contribute to improving the F1 score for any < LL,NN >combination were found to be Homogeneity I and Homogeneity II. It was also noted that using an 8×8 window on images with 128 gray levels resulted in a practically usable high F1 score (96.39%) with the least number of features (14).

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基于灰度量化和窗口大小函数的机织物共现纹理特征分析

本实验研究在机织物缺陷自动检测的背景下，研究了灰度量化和平铺窗大小对22个灰度共现矩阵特征的影响。使用1426张128×128图像组成的数据集，其中有缺陷和无缺陷的图像以50:50的比例进行分割。实验采用7种量化水平(LL = 4、8、16、32、64、128和256)和4种窗口大小(NN = 8、16、32、64)进行。从每个< LL,NN >组合的训练集中的每个图像中提取特征，然后使用联合互信息度量进行排序。接下来，对于每个< LL,NN >组合，训练一个k近邻分类器，首先只训练排名最高的特征，然后迭代地添加排名较低的特征。观察到，对于任何< LL,NN >组合，除了NN相对较大的情况外，至少需要9个特征才能获得可接受的(>90%)F1分数。对于任何< LL,NN >组合，有助于提高F1分数的两个特征是同质性I和同质性II。同样值得注意的是，在128灰度级的图像上使用8×8窗口，以最少的特征数(14)获得了实际可用的高F1分数(96.39%)。

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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Engineer-Journal of the Institution of Engineers Sri Lanka ENGINEERING, MULTIDISCIPLINARY-

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