3D geometry modelling tools and 3D scanners become more enhanced and to a greater degree affordable today. Thus, development of the new algorithms in geometry processing, shape analysis and shape correspondence gather momentum in computer graphics. Those algorithms steadily extend and increasingly replace prevailing methods based on images and videos. Non-rigid shape correspondence or deformable shape matching has been a long-studied subject in computer graphics and related research fields. Not to forget, shape correspondence is of wide use in many applications such as statistical shape analysis, motion cloning, texture transfer, medical applications and many more. However, robust and efficient non-rigid shape correspondence still remains a...
We introduce the first completely unsupervised correspondence learning approach for deformable 3D sh...
Commonly, novel non-rigid shape correspondence techniques focus on particular matching challenges. T...
Dynamically deforming 3D surfaces play a major role in computer graphics. However, producing time-va...
3D geometry modelling tools and 3D scanners become more enhanced and to a greater degree affordable ...
Correspondance de forme est un problème fondamental dans de nombreuses disciplines de recherche, tel...
UnrestrictedPeople have been studying shapes since the ancient times, using geometry to model those ...
With an abundance of animation techniques available today, animated mesh has become a subject of var...
La manipulation et le traitement d'énormes quantités de données en 3D est devenu un défi ayant d'inn...
This thesis explores, for 3D shape representations, the relationship between geometry and meaning, f...
In this thesis we propose algorithms for tracking 3D deformable shapes in motion from multiview vide...
Abstract During the past few years we have witnessed the development of many methodologies for buil...
In the broad field of computer vision, Three-Dimensional (3D) Human shape and body understanding has...
Shape correspondence is a fundamental problem in computer graphics and vision, with applications in ...
In this thesis we address the problem of digitizing the motion of three-dimensional shapes that move...
We introduce the first completely unsupervised correspondence learning approach for deformable 3D sh...
Commonly, novel non-rigid shape correspondence techniques focus on particular matching challenges. T...
Dynamically deforming 3D surfaces play a major role in computer graphics. However, producing time-va...
3D geometry modelling tools and 3D scanners become more enhanced and to a greater degree affordable ...
Correspondance de forme est un problème fondamental dans de nombreuses disciplines de recherche, tel...
UnrestrictedPeople have been studying shapes since the ancient times, using geometry to model those ...
With an abundance of animation techniques available today, animated mesh has become a subject of var...
La manipulation et le traitement d'énormes quantités de données en 3D est devenu un défi ayant d'inn...
This thesis explores, for 3D shape representations, the relationship between geometry and meaning, f...
In this thesis we propose algorithms for tracking 3D deformable shapes in motion from multiview vide...
Abstract During the past few years we have witnessed the development of many methodologies for buil...
In the broad field of computer vision, Three-Dimensional (3D) Human shape and body understanding has...
Shape correspondence is a fundamental problem in computer graphics and vision, with applications in ...
In this thesis we address the problem of digitizing the motion of three-dimensional shapes that move...
We introduce the first completely unsupervised correspondence learning approach for deformable 3D sh...
Commonly, novel non-rigid shape correspondence techniques focus on particular matching challenges. T...
Dynamically deforming 3D surfaces play a major role in computer graphics. However, producing time-va...