Research on surface defect detection model of steel strip based on MFFA‐YOLOv5

Chen, Hao; Qiu, Jianlin; Gao, Depeng; Qian, Lanmei; Li, Xiujing

doi:10.1049/ipr2.13086

IET Image Processing

2024

DOI: 10.1049/ipr2.13086

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Research on surface defect detection model of steel strip based on MFFA‐YOLOv5

Hao Chen,

Jianlin Qiu,

Depeng Gao

et al.

Abstract: The surface quality of steel strip is a critical indicator of the quality of hot‐rolled strip, so accurate inspection of its surface is essential. However, the complex texture of steel strip surface defects makes the detection challenging. Here, a multi‐scale feature fusion and attention based YOLOv5 (MFFA‐YOLOv5) model is proposed. Specifically, the bottom layer features are up‐sampled and fused not only with the middle layer features, but also with the top layer features, so that the model better captures th… Show more

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AMC‐YOLO: Improved YOLOv8‐based defect detection for cigarette packs

Dong,

Wang,

et al. 2024

IET Image Processing

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Defect detection in cigarette packaging is a crucial process for ensuring product quality meets industry standards within the tobacco manufacturing sector. Defect detection methods based on deep learning have significantly enhanced efficiency. However, challenges remain in addressing issues such as blurred boundary textures of cigarette pack defects and the complex differentiability and similarity among defects. Consequently, this study presents the design of a defect detector for cigarette packs that is sensitive to detail features, named AMC‐YOLO. Initially, an Adaptive Spatial Weight Perception (ASWP) module is designed to emphasize local information from different regions during the downsampling process and integrate effective features. Additionally, a Multidimensional Aggregation Radiative Feature Pyramid Networks (MARFPN) is proposed to aggregate multi‐scale semantic information across dimensions and relay it back to various levels within the network to facilitate the learning of more refined feature. Lastly, a Cross‐Layer Collaborative Detection Head (CLCDH) is introduced to further weight and fuse the contextual information between local and global aspects. Experimental results demonstrate that AMC‐YOLO outperforms state‐of‐the‐art methods on the Cigarette Pack Defect and GC10‐DET datasets, exhibiting the highest detection precision and excellent generalization. These findings highlight the significant potential for the application of AMC‐YOLO in cigarette pack defect detection.

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AMC‐YOLO: Improved YOLOv8‐based defect detection for cigarette packs

Dong,

Wang,

et al. 2024

IET Image Processing

View full text Add to dashboard Cite

show abstract

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Research on surface defect detection model of steel strip based on MFFA‐YOLOv5

Cited by 1 publication

References 25 publications

AMC‐YOLO: Improved YOLOv8‐based defect detection for cigarette packs

AMC‐YOLO: Improved YOLOv8‐based defect detection for cigarette packs

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