Difference between revisions of "David Cazier"
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| − | '''[[David_Cazier_MRMap2D| | + | '''[[David_Cazier_MRMap2D|Multiresolution Maps]]''' |
| − | + | A compact and efficient combinatorial model for the encoding of multiresolution surfaces. This work is applied to subdivision surfaces and progessive meshes. | |
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'''[[David_Cazier_Reconstruction|Reconstruction]]''' | '''[[David_Cazier_Reconstruction|Reconstruction]]''' | ||
| − | + | Algorithms for the automatic building of manifold meshes and of volumetric meshes from medical images. | |
<br clear="all"/> | <br clear="all"/> | ||
[[Image:XMap_Edge.png|left|thumb|180px]] | [[Image:XMap_Edge.png|left|thumb|180px]] | ||
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| − | '''[[David_Cazier_XMap| | + | '''[[David_Cazier_XMap|Non-manifold maps]]''' |
| − | + | A new model for the modeling of curves, surfaces and volumes sewn and assembled around singular points (also called non-manifolds models) | |
<br clear="all"/> | <br clear="all"/> | ||
| − | '''[[David_Cazier_Collision| | + | '''[[David_Cazier_Collision|Collision detection]]''' |
| − | + | A forecast mechanism for real time tracking of particles trajectories. This work is applied to collision detection between deformable solids in complex environments. | |
[[Image:particlues.png|center|thumb|400px]] | [[Image:particlues.png|center|thumb|400px]] | ||
| − | ===[[David_Cazier_Projets| | + | ===[[David_Cazier_Projets|Projects and collaborations]]=== |
===[[David_Cazier_Publications|Publications]]=== | ===[[David_Cazier_Publications|Publications]]=== | ||
| − | ===[[David_Cazier_CV|Curriculum Vitae | + | ===[[David_Cazier_CV|Curriculum Vitae and Responsibilities]]=== |
[[fr:David_Cazier]] | [[fr:David_Cazier]] | ||
Revision as of 11:44, 27 October 2011
Assistant Professor in Computer Science
- Reseacher at the LSIIT laboratory
- Teacher at IUT de Haguenau
and at Université de Strasbourg.
| Phone LSIIT : | +33 (0)3-68-85-45-68 |
| Fax LSIIT : | +33 (0)3-68-85-44-55 |
| EMail : | david.cazier AT unistra.fr |
Activités de Recherche
Many works in simulation, modeling or geometry processing use multiple representations of the same object. They may correspond to different scales or to different levels of detail, especially in multiresolution applications. They may also correspond to models of different natures.
In simulation, most methods require volumetric meshing for the computation of deformation. To this first mesh a finer surface mesh is usually associated for realistic rendering. The use of multi-scale representation is also common in the field of image segmentation for mesh compression or simplification. At last, many algorithms make use of hierarchical structures to speed up the treatments, such as ray tracing and collision detection.
My research concerns the development of multi-scale combinatorial structures for geometric modeling, animation and geometry processing.
A compact and efficient combinatorial model for the encoding of multiresolution surfaces. This work is applied to subdivision surfaces and progessive meshes.
Algorithms for the automatic building of manifold meshes and of volumetric meshes from medical images.
A new model for the modeling of curves, surfaces and volumes sewn and assembled around singular points (also called non-manifolds models)
A forecast mechanism for real time tracking of particles trajectories. This work is applied to collision detection between deformable solids in complex environments.
