Volumetric deformable face models for cranio-facial reconstruction

In forensic cranio-facial reconstruction, facial features of an unknown individual are estimated from an unidentified skull, based on a mixture of experimentally obtained guidelines on the relationship between soft tissues and the underlying skeleton. In this paper, we investigate the possibility of using full 3-D cross-sectional CT images for establishing a reference database of densely sampled distances between the external surfaces of the skull and skin for automated cranio-facial reconstruction. For each CT image in the reference database, the hard tissue (skull) and extra-cranial soft tissue (skin) volumes are segmented and transformed into signed distance transform (sDT) maps. A simplified procedure for cranio-facial reconstruction was implemented, by warping all reference skull sDT maps to the target skull sDT. These warps are subsequently applied to the reference skin sDT maps and the zero level set of their arithmetic average is defined as the reconstructed target skin surface. Initial results are shown to proof the validity of the concept, but further refinement of the procedures involved and a qualitative validation are required.

[1]  R Jacobs,et al.  Radiation dose vs. image quality for low-dose CT protocols of the head for maxillofacial surgery and oral implant planning. , 2005, Radiation protection dosimetry.

[2]  John Prag,et al.  Making Faces: Using forensic and archaeological evidence , 1999 .

[3]  Mark W. Jones,et al.  Facial Reconstruction Using Volumetric Data , 2001, VMV.

[4]  Jikun Wei,et al.  X-ray CT high-density artefact suppression in the presence of bones , 2004, Physics in medicine and biology.

[5]  G Quatrehomme,et al.  A fully three-dimensional method for facial reconstruction based on deformable models. , 1997, Journal of forensic sciences.

[6]  Isabelle Bloch,et al.  Segmentation of the skull in MRI volumes using deformable model and taking the partial volume effect into account , 2000, Medical Image Anal..

[7]  L A Nelson,et al.  The application of volume deformation to three-dimensional facial reconstruction: a comparison with previous techniques. , 1998, Forensic science international.

[8]  P Vanezis,et al.  Application of 3-D computer graphics for facial reconstruction and comparison with sculpting techniques. , 1989, Forensic science international.

[9]  K. Taylor Forensic Art and Illustration , 2000 .

[10]  R. Hartley,et al.  Face Reconstructions using Flesh Deformation Modes , 2005 .

[11]  W. Kalender,et al.  The European Spine Phantom--a tool for standardization and quality control in spinal bone mineral measurements by DXA and QCT. , 1995, European journal of radiology.

[12]  R Evenhouse,et al.  Computer-aided forensic facial reconstruction , 1991, Other Conferences.

[13]  Paul Suetens,et al.  Statistically deformable face models for cranio-facial reconstruction , 2005 .

[14]  P. Vanezis,et al.  Techniques in facial identification: Computer-aided facial reconstruction using a laser scanner and video superimposition , 2005, International Journal of Legal Medicine.

[15]  A. Chamberlain,et al.  Forensic three-dimensional facial reconstruction: historical review and contemporary developments. , 1997, Journal of forensic sciences.

[16]  P Vanezi,et al.  Facial reconstruction using 3-D computer graphics. , 2000, Forensic science international.

[17]  M J Ackerman Optical technology: making the simulator portable. , 1992, The Journal of biocommunication.

[18]  Karl J. Friston,et al.  High-Dimensional Image Registration Using Symmetric Priors , 1999, NeuroImage.