Automated facial reconstruction

doi:10.1017/CBO9781139049566.017

Chapter 17 - Automated facial reconstruction

Published online by Cambridge University Press: 05 May 2012

John Clement and

Edited by

Caroline Wilkinson and

Christopher Rynn

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Caroline Wilkinson: Affiliation:
University of Dundee
Christopher Rynn: Affiliation:
University of Dundee

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Summary

Introduction

Craniofacial reconstruction (CFR) can be a useful tool in the identification of a corpse that is unrecognisable due to its state of decomposition, soft-tissue mutilation or incineration, and if no other identification evidence is available. Traditional CFR methods are based on manual reconstruction by physically modelling a face on a skull replica with clay or plasticine. The progress in computer science and the improvement of medical imaging technologies during recent years have fostered the development of fast and flexible computer-based reconstruction programs. This chapter presents a comprehensive review of computerised three-dimensional (3D) CFR algorithms with particular emphasis on the more recent statistical based reconstruction methods, including a discussion of the various alternatives and problems that arise during the process of designing a CFR program.

Forensic identification of an unknown body is based on comparisons of ante- and post-mortem data, such as medical files, dental records, X-rays or DNA. Sometimes ante-mortem records are not available or incomplete; sometimes the preservation of DNA may be so poor as to make comparisons impossible. Similarly, when identifying features are completely missing or have decomposed beyond recognition but partial or complete skull fragments are available, CFR may assist the investigation. The goal of CFR is to recreate a likeness of the face of an individual immediately prior to their death. Different 2D and 3D manual or computer-aided CFR techniques have been developed for this purpose and all are based on the assumed relationship between the soft-tissue envelope and the underlying skull substrate.

Type: Chapter
Information: Craniofacial Identification , pp. 203 - 221

DOI: https://doi.org/10.1017/CBO9781139049566.017 [Opens in a new window]

Publisher: Cambridge University Press

Print publication year: 2012

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