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Simultaneous Shape and Pose Adaption of Articulated Models Using Linear Optimization*

Matthias Straka, Stefan Hauswiesner, Matthias Rüther, and Horst Bischof

Institute for Computer Graphics and Vision, Graz University of Technology, Inffeldgasse 16/II, A-8010, Graz, Austria
straka@icg.tugraz.at
hauswiesner@icg.tugraz.at
ruether@icg.tugraz.at
bischof@icg.tugraz.at
http://www.icg.tugraz.at/

Abstract. We propose a novel formulation to express the attachment of a polygonal surface to a skeleton using purely linear terms. This enables to simultaneously adapt the pose and shape of an articulated model in an efficient way. Our work is motivated by the difficulty to constrain a mesh when adapting it to multi-view silhouette images. However, such an adaption is essential when capturing the detailed temporal evolution of skin and clothing of a human actor without markers. While related work is only able to ensure surface consistency during mesh adaption, our coupled optimization of the skeleton creates structural stability and minimizes the sensibility to occlusions and outliers in input images. We demonstrate the benefits of our approach in an extensive evaluation. The skeleton attachment considerably reduces implausible deformations, especially when the number of input views is limited.

Keywords: Shape Adaption, Pose Estimation, Mesh Editing, Linear Optimization

*This work was supported by the Austrian Research Promotion Agency (FFG) under the BRIDGE program, project #822702 (NARKISSOS).

LNCS 7572, p. 724 ff.

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