Project-Team Memphis
Members
Overall Objectives
Multi-physics numerical modeling
Research Program
Hierarchical Cartesian schemes
Reduced-order models
Application Domains
Energy conversion
Impacts
New materials
Bio-inspired robotic swimming
Highlights of the Year
New Software and Platforms
COCOFLOW
KOPPA
NS-penal
NaSCar
New Results
Hybrid POD/DNS: application to aeroelastic windturbine blade
Discretization of the Laplacian operator using a multitude of overlapping cartesian grids
Numerical simulation of a biomimetic LVAD developed by CorWave
A sharp Cartesian method for incompressible flows with large density ratios
Platooning of trucks on highways
Non-linear elasto-plastic dynamics of compressible materials
Hierarchical grids: applications with quadtrees/octrees
Bilateral Contracts and Grants with Industry
Bilateral Contracts with Industry
Partnerships and Cooperations
Regional Initiatives
National Initiatives
European Initiatives
International Initiatives
International Research Visitors
Dissemination
Promoting Scientific Activities
Teaching - Supervision - Juries
Popularization
Bibliography
Major publications
Publications of the year
References in notes
Inria
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Raweb 2016
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Presentation of the Project-Team MEMPHIS
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MEMPHIS Web Site
PDF
e-Pub
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Section: Partnerships and Cooperations
International Initiatives
Inria International Labs
Declared Inria International Partners
Collaboration with Optimad Engineering.
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