Ultrasonic scanning image defect detection of plastic packaging components based on FCOS

Proceedings of the 2022 6th International Conference on Deep Learning Technologies Pub Date : 2022-07-26 DOI:10.1145/3556677.3556686

Yiwen Long, Mengyan Xiao, Xiaoqiang Wang, Bin Wang, Jun Luo, Shuo Diao

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Abstract

Defect detection of ultrasonic scanning images of plastic packaging components is mainly rely on manpower and not suitable for traditional feature extraction methods, to solve this problem, this paper put forward an optimized FCOS deep learning network to identify its delaminated defects. We redesign the backbone IResNeSt that consists of new bottleneck and data transmission path as the feature extraction module to enhance the information expression ability, furthermore, we introduce a feature pyramid network TF-FPN to improve the feature utilization. Finally, the complete proposed structure FCOS-ITN realizes the identification of various defects and retains more feature details. The experimental results show that compared with the typical object detection method, our FCOS-ITN applied on ultrasonic scan data set locates the delaminated region more accurately. As a matter of fact, the average accuracy (mAP) achieved 90.27% on all defect types, which is 6.58% higher than that of the original frame, indicating that our approach is feasible for non-destructive defect detection.

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基于FCOS的塑料包装部件超声扫描图像缺陷检测

塑料包装部件超声扫描图像的缺陷检测主要依靠人工，不适合传统的特征提取方法，针对这一问题，本文提出了一种优化的FCOS深度学习网络来识别其分层缺陷。我们重新设计了包含新瓶颈和数据传输路径的主干IResNeSt作为特征提取模块，增强了信息表达能力，并引入了特征金字塔网络TF-FPN，提高了特征利用率。最后，提出的完整结构FCOS-ITN实现了对各种缺陷的识别，并保留了更多的特征细节。实验结果表明，与典型的目标检测方法相比，我们的FCOS-ITN在超声扫描数据集上更准确地定位了分层区域。事实上，在所有缺陷类型上的平均精度(mAP)达到了90.27%，比原帧的平均精度提高了6.58%，表明我们的方法对于无损缺陷检测是可行的。

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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Proceedings of the 2022 6th International Conference on Deep Learning Technologies

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