Bite Mark Documentation and Analysis: the Forensic 3D/CAD Supported Photogrammetry Approach

Overview

Journal Forensic Sci Int

Specialty Forensic Sciences

Date 2003 Aug 21

PMID 12927412

Citations 21

Authors

M J Thali

M Braun

Th H Markwalder

W Brueschweiler

U Zollinger

Naseem J Malik

K Yen

R Dirnhofer

Affiliations

Soon will be listed here.

Abstract

Bite mark identification is based on the individuality of a dentition, which is used to match a bite mark to a suspected perpetrator. This matching is based on a tooth-by-tooth and arch-to-arch comparison utilising parameters of size, shape and alignment. The most common method used to analyse bite mark are carried out in 2D space. That means that the 3D information is preserved only two dimensionally with distortions. This paper presents a new 3D documentation, analysis and visualisation approach based on forensic 3D/CAD supported photogrammetry (FPHG) and the use of a 3D surface scanner. Our photogrammetric approach and the used visualisation method is, to the best to our knowledge, the first 3D approach for bite mark analysis in an actual case. The documentation has no distortion artifacts as can be found with standard photography. All the data are documented with a metric 3D measurement, orientation and subsequent analysis in 3D space. Beside the metrical analysis between bite mark and cast, it is possible using our method to utilise the topographical 3D feature of each individual tooth. This means that the 3D features of the biting surfaces and edges of each teeth are respected which is--as shown in our case--very important especially in the front teeth which have the first contact to the skin. Based upon the 3D detailed representation of the cast with the 3D topographic characteristics of the teeth, the interaction with the 3D documented skin can be visualised and analysed on the computer screen.

Citing Articles

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Evaluation of Bitemark Analysis's Potential Application in Forensic Identification: A Systematic Review.

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Reverse engineering in forensic investigations: a new approach to bite mark analysis.

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Beyond the visible spectrum - applying 3D multispectral full-body imaging to the VirtoScan system.

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A systematic review of 3D scanners and computer assisted analyzes of bite marks: searching for improved analysis methods during the Covid-19 pandemic.

Vilborn P, Bernitz H Int J Legal Med. 2021; 136(1):209-217.

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