DocumentCode
3184677
Title
Robust semantic analysis by synthesis of 3D facial motion
Author
Breidt, Martin ; Biilthoff, H.H. ; Curio, Cristóbal
Author_Institution
Max Planck Inst. for Biol. Cybern., Korea Univ., Seoul, South Korea
fYear
2011
fDate
21-25 March 2011
Firstpage
713
Lastpage
719
Abstract
Rich face models already have a large impact on the fields of computer vision, perception research, as well as computer graphics and animation. Attributes such as descriptiveness, semantics, and intuitive control are desirable properties but hard to achieve. Towards the goal of building such high-quality face models, we present a 3D model-based analysis-by-synthesis approach that is able to parameterize 3D facial surfaces, and that can estimate the state of semantically meaningful components, even from noisy depth data such as that produced by Time-of-Flight (ToF) cameras or devices such as Microsoft Kinect. At the core, we present a specialized 3D morphable model (3DMM) for facial expression analysis and synthesis. In contrast to many other models, our model is derived from a large corpus of localized facial deformations that were recorded as 3D scans from multiple identities. This allows us to analyze unstructured dynamic 3D scan data using a modified Iterative Closest Point model fitting process, followed by a constrained Action Unit model regression, resulting in semantically meaningful facial deformation time courses. We demonstrate the generative capabilities of our 3DMMs for facial surface reconstruction on high and low quality surface data from a ToF camera. The analysis of simultaneous recordings of facial motion using passive stereo and noisy Time-of-Flight camera shows good agreement of the recovered facial semantics.
Keywords
image reconstruction; iterative methods; regression analysis; 3D facial motion; 3D facial surface parameterization; 3D model-based analysis-by-synthesis approach; 3D morphable model; Microsoft Kinect; action unit model regression; facial expression analysis; facial expression synthesis; facial surface reconstruction; iterative closest point model fitting process; robust semantic analysis by synthesis; time-of-flight cameras; Cameras; Computational modeling; Data models; Deformable models; Face; Solid modeling; Three dimensional displays;
fLanguage
English
Publisher
ieee
Conference_Titel
Automatic Face & Gesture Recognition and Workshops (FG 2011), 2011 IEEE International Conference on
Conference_Location
Santa Barbara, CA
Print_ISBN
978-1-4244-9140-7
Type
conf
DOI
10.1109/FG.2011.5771336
Filename
5771336
Link To Document