Précédent : References Remonter : Projet M3N
Précédent : References Remonter : Projet
M3N
This project aims to create and develop multidisciplinary numerical methods for the solution of complex problems in Engineering, Mechanics or Physics. This involves physical and mathematical modelling, finite element approximation, and the development of numerical methods. Five topics are more specifically addressed :
- Development of numerical solvers in Fluid Mechanics or Hydrology, integrating adaptive mesh generation, solution procedures on multiprocessors computers and error estimates,
- Fluid Structure interaction in large displacements,
- Coupling of multiscale models (turbulence, wall laws, kinetic modelling in rarefied gas dynamics),
- Semiconductor modelling,
- Optimum design and control.
RESEARCH THEMES
°Computing viscous flows (modelling and control of turbulence, fluid structure interaction, active control, hydrology).
°Simulation of semiconductors.
°Kinetic modelling of gases.
°Numerical methods in electromagnetism.
INDUSTRIAL AND INTERNATIONAL RELATIONS
°Contracts with Dassault, PSA, CEA-CESTA and CNET.
°Participation in Brite-type or HPCN European projects.
°Ongoing collaboration with the University of Kaiserslautern, and several laboratories in the Russian Academy of Science.
°Leading a joint INRIA-NSF project with the Universities of Colorado and Texas.