Model-based multiple view reconstruction of people

This paper presents a framework to reconstruct a scene captured in multiple camera views based on a prior model of the scene geometry. The framework is applied to the capture of animated models of people. A multiple camera studio is used to simultaneously capture a moving person from multiple viewpoints. A humanoid computer graphics model is animated to match the pose at each time frame. Constrained optimisation is then used to recover the multiple view correspondence from silhouette, stereo and feature cues, updating the geometry and appearance of the model. The key contribution of this paper is a model-based computer vision framework for the reconstruction of shape and appearance from multiple views. This is compared to current model-free approaches for multiple view scene capture. The technique demonstrates improved scene reconstruction in the presence of visual ambiguities and provides the means to capture a dynamic scene with a consistent model that is instrumented with an animation structure to edit the scene dynamics or to synthesise new content.

[1]  Ramesh Raskar,et al.  Image-based visual hulls , 2000, SIGGRAPH.

[2]  Paul Debevec,et al.  Modeling and Rendering Architecture from Photographs , 1996, SIGGRAPH 1996.

[3]  Takeo Kanade,et al.  Constructing virtual worlds using dense stereo , 1998, Sixth International Conference on Computer Vision (IEEE Cat. No.98CH36271).

[4]  Steven M. Seitz,et al.  Photorealistic Scene Reconstruction by Voxel Coloring , 1997, International Journal of Computer Vision.

[5]  A. Laurentini,et al.  The Visual Hull Concept for Silhouette-Based Image Understanding , 1994, IEEE Trans. Pattern Anal. Mach. Intell..

[6]  Kiriakos N. Kutulakos,et al.  A Theory of Shape by Space Carving , 2000, International Journal of Computer Vision.

[7]  Adrian Hilton,et al.  Animated statues , 2003, Machine Vision and Applications.

[8]  Takeo Kanade,et al.  Virtualized Reality: Constructing Virtual Worlds from Real Scenes , 1997, IEEE Multim..

[9]  R. Plankers,et al.  Articulated soft objects for video-based body modeling , 2001, Proceedings Eighth IEEE International Conference on Computer Vision. ICCV 2001.

[10]  Jean-Yves Bouguet,et al.  Camera calibration toolbox for matlab , 2001 .

[11]  Wei Sun,et al.  Whole-body modelling of people from multiview images to populate virtual worlds , 2000, The Visual Computer.

[12]  Changming Sun,et al.  Fast Stereo Matching Using Rectangular Subregioning and 3D Maximum-Surface Techniques , 2002, International Journal of Computer Vision.

[13]  Yizhou Yu,et al.  Efficient View-Dependent Image-Based Rendering with Projective Texture-Mapping , 1998, Rendering Techniques.

[14]  Ioannis A. Kakadiaris,et al.  Three-Dimensional Human Body Model Acquisition from Multiple Views , 1998, International Journal of Computer Vision.

[15]  Olivier D. Faugeras,et al.  Variational principles, surface evolution, PDEs, level set methods, and the stereo problem , 1998, IEEE Trans. Image Process..

[16]  Nadia Magnenat-Thalmann,et al.  Head Modeling from Pictures and Morphing in 3D with Image Metamorphosis Based on Triangulation , 1998, CAPTECH.

[17]  Saied Moezzi,et al.  Virtual View Generation for 3D Digital Video , 1997, IEEE Multim..

[18]  Emanuele Trucco,et al.  Rectification with unconstrained stereo geometry , 1997, BMVC.

[19]  Pascal Fua,et al.  Object-centered surface reconstruction: Combining multi-image stereo and shading , 1995, International Journal of Computer Vision.

[20]  Hideo Saito,et al.  Modeling, Combining, and Rendering Dynamic Real-World Events From Image Sequences , 1998 .

[21]  O. Faugeras,et al.  Variational principles, surface evolution, PDE's, level set methods and the stereo problem , 1998, 5th IEEE EMBS International Summer School on Biomedical Imaging, 2002..

[22]  Linda G. Shapiro,et al.  View-base Rendering: Visualizing Real Objects from Scanned Range and Color Data , 1997, Rendering Techniques.

[23]  Takeo Kanade,et al.  Spatio-Temporal View Interpolation , 2002, Rendering Techniques.

[24]  Nadia Magnenat-Thalmann,et al.  Modelling and Motion Capture Techniques for Virtual Environments , 1998, Lecture Notes in Computer Science.