TY  - THES
A3  - Blanz, Volker
AB  - The 3D Morphable Model (3DMM) by Blanz and Vetter is likewise the basis and the initial motivation of this dissertation. It is based on a data set of 3D scans of example faces which are in dense point-to-point correspondence to each other. This correspondence can be used to apply a morphing between individual faces. Accordingly, it is possible to create a continuous transition between different facial shapes and textures.
The new methods which have been developed and are presented in this dissertation rely strongly on the dense point-to-point correspondence and the associated ability to morph between individual faces. Furthermore, the support of non-rigid transformations (various facial expressions) leads to a substantial advantage when comparing the 3DMM to geometry-based methods. Altogether, this enables to analyze facial attributes, including variations caused by facial expressions or aging of a specific person, as well as the transfer of these attributes between several individuals.
So far it has not been possible to reconstruct facial details like pores or facial hair when fitting a 3DMM to blurred or low-resolution input images as they exceed the level of detail captured by the 3DMM. By making use of a new hallucination approach, these missing, high spatial frequencies can be inferred from a dataset of high-resolution photos of faces. For this purpose, a search for matching candidates is performed individually for each facial region of the face in the input image. Then the additional details of all regions are combined to generate a plausible high-resolution facial texture based on a low-resolution input image.
Another new approach, which is presented in this dissertation, makes it unnecessary to manually select facial landmarks like the position of the nose, mouth, eyes, etc. when fitting the 3DMM to an input image. This new fully automated method provides the basis for analyzing large photo databases. Additionally, it creates a simplified and much more intuitive workflow, which enables even non-professionals to use the 3DMM for 3D face reconstructions. Following this, it is shown how an approach, that creates realistic lighting situations based on coarse sketches on the face in an input image, can be used to change the lighting and shading of an arbitrary face without having knowledge about the real face geometry or the underlying 3D face reconstruction method.
Finally, a novel method is introduced which extracts and combines facial information based on several images of the same person. When compared to existing multi-fitting techniques, the resulting 3D facial reconstructions are more robust and superior with respect to overall quality, especially if the processed photos contain distinct facial expressions, non-frontal poses and complex lighting.
AU  - Piotraschke, Marcel
DA  - 2018
DO  - 10.25819/ubsi/35
KW  - Maschinelles Sehen
KW  - Analyse-durch-Synthese
KW  - Gesichtsrekonstruktion
KW  - Image processing
KW  - Morphable model
KW  - Face reconstruction
KW  - Feature transfer
KW  - Face detection
LA  - eng
PY  - 2018
TI  - Automatic 3D face reconstruction and feature transfer
UR  - https://nbn-resolving.org/urn:nbn:de:hbz:467-14754
Y2  - 2024-11-22T13:20:21
ER  -