Illustrated argument for CT-scanning a whole car for the forensic investigation of projectile holes, defects, fragments and possible trajectories

IF 0.8 Q4 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING
Wolf Schweitzer, Lars Ebert, Michael Thali, Stephan Bolliger
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引用次数: 0

Abstract

Contemporary documentation of a car with bullet defects after a shooting incident can secure the usual tracks and gunshot residue, take photographs, and use trajectory rods and probes. Since the advent of the “XXL-CT -Scanner” (Fraunhofer Institute, Germany), we have wondered if the advantages of volume scanning CT, already noted for forensic pathology, could be applied to cars. To this end, we damaged a small 3D-printed car model with an electric drill and added CT -dense material with a soldering iron, simulating linearly configured defect morphologies with metal particles. This model was CT -scanned and the resulting data visualized to illustrate how these visualizations can support reconstructive visualization of trajectories. Performing a real XXL-CT scan of a bullet-riddled car requires extensive preparation, transportation, and other logistical measures that are costly and time-consuming. Nonetheless, we suggest that this is a worthwhile research direction to explore.

图解论证ct扫描整辆车的法医调查弹孔,缺陷,碎片和可能的轨迹
枪击事件后有子弹缺陷的汽车的现代文档可以确保通常的轨迹和枪击残留物,拍照,并使用轨迹棒和探针。自从“XXL-CT扫描仪”(德国弗劳恩霍夫研究所)问世以来,我们一直想知道体积扫描CT的优势是否可以应用于汽车,体积扫描CT已经被用于法医病理学。为此,我们用电钻损坏了一个小型3D打印汽车模型,并用烙铁添加了CT密集材料,模拟了金属颗粒的线性配置缺陷形态。该模型进行了CT扫描,并对所得数据进行了可视化,以说明这些可视化如何支持轨迹的重建可视化。对弹痕累累的汽车进行真正的XXL-CT扫描需要大量的准备、运输和其他后勤措施,这些措施既昂贵又耗时。尽管如此,我们认为这是一个值得探索的研究方向。
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来源期刊
Forensic Imaging
Forensic Imaging RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-
CiteScore
2.20
自引率
27.30%
发文量
39
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