基于最低成本路径的牙齿和下颌分离的自动牙齿识别

IF 1 Q3 MEDICINE, LEGAL
Jan-Vidar Ølberg, Morten Goodwin
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引用次数: 11

摘要

牙齿是人体最具弹性的组织之一。由于它们的位置,即使在其他指标(如指纹和DNA)缺失的情况下,牙齿通常也会产生完整的指标。牙科鉴定的法医学现在主要是手工工作,这是时间和资源密集的。从牙科x射线图像中自动识别人类的系统有可能大大减少在牙科识别上花费的必要精力,但它需要一个具有高稳定性和准确性的系统,以便结果是可信的。本文提出了一种新的口腔x射线自动识别系统。该方案从x射线图像中提取牙齿和牙齿工作轮廓,并使用豪斯多夫距离度量对人员进行排序。这种最先进的方法与一种新颖的成本最低的基于路径的方法相结合,将牙科x射线图像分离到单个牙齿中,能够获得比文献中可用的更好的结果。所提出的方案功能齐全,可用于在真实的牙科数据库中准确识别人。该系统能够完美分离测试集中88.7%的牙齿。此外,在验证过程中,系统在86%的情况下将正确的人排在首位,在94%的情况下将正确的人排在前五名。该方法具有引人注目的潜力,可以显着减少花在牙科鉴定上的时间。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Automated Dental Identification with Lowest Cost Path-Based Teeth and Jaw Separation
Abstract Teeth are some of the most resilient tissues of the human body. Because of their placement, teeth often yield intact indicators even when other metrics, such as finger prints and DNA, are missing. Forensics on dental identification is now mostly manual work which is time and resource intensive. Systems for automated human identification from dental X-ray images have the potential to greatly reduce the necessary efforts spent on dental identification, but it requires a system with high stability and accuracy so that the results can be trusted. This paper proposes a new system for automated dental X-ray identification. The scheme extracts tooth and dental work contours from the X-ray images and uses the Hausdorff-distance measure for ranking persons. This combination of state-of-the-art approaches with a novel lowest cost path-based method for separating a dental X-ray image into individual teeth, is able to achieve comparable and better results than what is available in the literature. The proposed scheme is fully functional and is used to accurately identify people within a real dental database. The system is able to perfectly separate 88.7% of the teeth in the test set. Further, in the verification process, the system ranks the correct person in top in 86% of the cases, and among the top five in an astonishing 94% of the cases. The approach has compelling potential to significantly reduce the time spent on dental identification.
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