Difference between revisions of "Geometric Modeling, Simulation and Interaction"
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===Objectives / Challenges=== | ===Objectives / Challenges=== | ||
| − | + | The main objective is to improve the quality in terms of efficiency and robustness of geometric modeling and simulation operations. To achieve this goal, we operate our topological models based on combinatorial maps that facilitate the operations of geometric modeling design through their generic in terms of size and type of cell, and thanks also to the separation of the topology and the embedding of objects which is the basic concept. | |
===Participants=== | ===Participants=== | ||
Revision as of 13:58, 23 February 2016
Geometric Modeling, Simulation and Interaction
Objectives / Challenges
The main objective is to improve the quality in terms of efficiency and robustness of geometric modeling and simulation operations. To achieve this goal, we operate our topological models based on combinatorial maps that facilitate the operations of geometric modeling design through their generic in terms of size and type of cell, and thanks also to the separation of the topology and the embedding of objects which is the basic concept.
Participants
- Two Professors : Dominique Bechmann et David Cazier
- One Senior Researcher : Stephane Cotin
- Three Assitant professors : Antonio Capobianco, Jérôme Grosjean et Pierre Kraemer
- Two Research engineers : Thierry Blandet et Sylvain Thery
- 5 PhD : Sabah Boustila (Contrat Projet CIMBEES du 12/2012 au 09/2015), Lionel Untereiner (Allocataire Unistra du 10/2010 au 09/2013), Jonathan Wonner (Allocataire Normalien du 01/2011 au 12/2013).
Results
- Modèle volumique adaptatif et multi-résolution (thèse Untereiner 2013 [8-Unte13]) :
[2-UKCB15, 2-UCB13, 3-UCB12]
- Détection des collisions dans des scènes en mouvement (thèse Pitiot 2015) :
- Simulation de découpe en temps réel (thèse Paulus 2016) :
- Prédiction et sélection de cibles en environnement dense (thèse Wonner 2013 [8-Wonn13]) :
[4-WGCB13, 4-WGCB12, 5-WGCB11]
- Séparation des degrés de liberté pour la manipulation d'objets (IEEE VR2011) :
[4-VCB12, 4-VCB11, 4-VCB10, 4-VCB09]
- Facteur de perception des distances en environnement virtuel (thèse Sabah Boustila 2016) :
[4-BCB16a, 4-BCB16b, 4-BCB15, 5-BBC15]
Other Publications
[2-CFB15]