Reagan L. Galvez, E. Dadios, A. Bandala, R. R. Vicerra
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引用次数: 9
Abstract
Manual detection of threat objects in an X-ray machine is a tedious task for the baggage inspectors in airports, train stations, and establishments. Objects inside the baggage seen by the X-ray machine are commonly occluded and difficult to recognize when rotated. Because of this, there is a high chance of missed detection, particularly during rush hour. As a solution, this paper presents a You Only Look Once (YOLO)based object detector for the automated detection of threat objects in an X-ray image. The study compared the performance between using transfer learning and training from scratch in an IEDXray dataset which composed of scanned Xray images of improvised explosive device (IED) replicas. The results of this research indicate that training YOLO from scratch beats transfer learning in quick detection of threat objects. Training from scratch achieved a mean average precision (mAP) of 45.89% in 416×416 image, 51.48% in 608×608 image, and 52.40% in a multi-scale image. On the other hand, using transfer learning achieved only an mAP of 29.54% while 29.17% mAP in a multi-scale image.
对于机场、火车站和其他场所的行李检查人员来说,用x光机手动检测威胁物体是一项乏味的任务。x光机看到的行李内的物体通常是闭塞的,旋转时难以识别。正因为如此,漏检的几率很高,尤其是在高峰时段。作为解决方案,本文提出了一种基于YOLO (You Only Look Once)的目标检测器,用于自动检测x射线图像中的威胁目标。该研究比较了在iedx射线数据集中使用迁移学习和从头开始训练的性能,该数据集由简易爆炸装置(IED)复制品的扫描x射线图像组成。研究结果表明,在快速检测威胁目标方面,从头开始训练YOLO优于迁移学习。从头开始训练的平均精度(mAP)在416×416图像上达到45.89%,在608×608图像上达到51.48%,在多尺度图像上达到52.40%。另一方面,使用迁移学习的mAP仅为29.54%,而多尺度图像的mAP为29.17%。
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