Litcius/Paper detail

YOLO-Based Defect Detection for Metal Sheets

Po-Heng Chou, Chun‐Chi Wang, Wei‐Lung Mao

202411 citationsDOIOpen Access PDF

Abstract

In this paper, we propose a YOLO-based deep learning (DL) model for automatic defect detection to solve time-consuming and labor-intensive in industrial manufacturing. In our experiments, the images of metal sheets are used as the dataset for training the YOLO model to detect the defects on surfaces and in holes of metal sheets. However, the lack of metal sheet images significantly degrades the performance of detection accuracy. To address this issue, the ConSinGAN is used to generate a considerable amount of data. Four versions of the YOLO model (i.e., YOLOv3, v4, v7, and v9) are combined with the ConSinGAN for data augmentation. The proposed YOLOv9 model with ConSinGAN outperforms the other YOLO models with an accuracy of 91.3%, and a detection time of 146 ms. The proposed YOLOv9 model is integrated into manufacturing hardware and a supervisory control and data acquisition (SCADA) to establish a practical automated optical inspection (AOI) system. Additionally, the proposed automated defect detection is easily applied to other components in industrial manufacturing.

Topics & Concepts

Computer scienceIndustrial Vision Systems and Defect Detection