Steel Surface Defect Detection Based on SSAM-YOLO

IF 0.8 Q4 Computer Science International Journal of Information Technologies and Systems Approach Pub Date : 2023-08-18 DOI:10.4018/ijitsa.328091

Tianle Yang, Jinghui Li

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Abstract

The defect inspection of the steel surface is crucial to modern manufacturing and highly depends on inefficient manual work. The emergence of deep learning has prompted the development of automated defect detection methods, but the current methods perform badly in the detection of the crazing and rolled-in scale-two types of defects on steel surfaces. The difficulty in the detection of crazing and rolled-in scale is mainly due to the similarity between object regions and background regions. Based on this, the authors propose a supervised spatial-attention module (SSAM). It introduces a priori knowledge compared to the traditional spatial attention mechanism, which can enhance the supervision of relevant parameters in the attention mechanism module during network training. Finally, they introduced the SSAM to the YOLOv5 and got the SSAM-YOLO. The test result on the NEU-DET dataset shows that the proposed method has better detection accuracy, achieving improvements of 7.3% and 3.02% on the AP@0.5 for the crazing and rolled-in scale. The method also outperforms the comparative main stream algorithms for steel surface defect detection, verifying the effectiveness of our algorithm.

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基于SSAM-YOLO的钢材表面缺陷检测

钢表面缺陷检测对现代制造业至关重要，并且高度依赖低效的手工工作。深度学习的出现促使了自动缺陷检测方法的发展，但目前的方法在检测钢材表面的两种类型的裂纹和轧制缺陷方面表现不佳。检测尺度上的裂纹和滚动的困难主要是由于对象区域和背景区域之间的相似性。在此基础上，作者提出了一种监督空间注意力模块（SSAM）。与传统的空间注意力机制相比，它引入了先验知识，可以在网络训练过程中加强对注意力机制模块中相关参数的监督。最后，他们将SSAM引入YOLOv5，得到了SSAM-YOLO。在NEU-DET数据集上的测试结果表明，该方法具有更好的检测精度，分别提高了7.3%和3.02%AP@0.5用于疯狂和大规模滚动。该方法在钢材表面缺陷检测方面也优于主流算法，验证了算法的有效性。

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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来源期刊

International Journal of Information Technologies and Systems Approach COMPUTER SCIENCE, INFORMATION SYSTEMS-

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12.50%

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