Abstract
Surface defect detection is a critical task in industrial production process. Nowadays, there are lots of detection methods based on computer vision and have been successfully applied in industry, they also achieved good results. However, achieving full automation of surface defect detection remains a challenge, due to the complexity of surface defect, in intraclass. While the defects between interclass contain similar parts, there are large differences in appearance of the defects. To address these issues, this article proposes a pyramid feature fusion and global context attention network for pixel-wise detection of surface defect, called PGA-Net. In the framework, the multiscale features are extracted at first from backbone network. Then the pyramid feature fusion module is used to fuse these features into five resolutions through some efficient dense skip connections. Finally, the global context attention module is applied to the fusion feature maps of adjacent resolution, which allows effective information propagate from low-resolution fusion feature maps to high-resolution fusion ones. In addition, the boundary refinement block is added to the framework to refine the boundary of defect and improve the result of the prediction. The final prediction is the fusion of the five resolutions fusion feature maps. The results of evaluation on four real-world defect datasets demonstrate that the proposed method outperforms the state-of-the-art methods on mean intersection of union and mean pixel accuracy (NEU-Seg: 82.15%, DAGM 2007: 74.78%, MT_defect: 71.31%, Road_defect: 79.54%).
Highlights
THE quality is an important component during the manufacturing process
It can be observed that the proposed PGA-Net outstanding the performance than other methods in the challenging cases of defect detection, e.g. low-contrast and intra-class difference, and the results of prediction are very similar to the ground truth
Multilevel features from defect images are extracted by feature extraction module
Summary
THE quality is an important component during the manufacturing process. To meet the growing demand, it is necessary to ensure the quality of products strictly while improving the production efficiency in the process of industrial production. Other approaches based on hand crafted feature are used for defect detection in industrial applications (such as solar modules [3], metal [4], and steel [5]) and have achieved good result in recent years. These methods are artificially design a set of features for a specific defect, which isn’t universal
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