Vincent Chabannes
Vincent Chabannes
Doctorant au LJK, Grenoble
Adresse e-mail validée de
Citée par
Citée par
Hemodynamic forces tune the arrest, adhesion, and extravasation of circulating tumor cells
G Follain, N Osmani, AS Azevedo, G Allio, L Mercier, MA Karreman, ...
Developmental cell 45 (1), 33-52. e12, 2018
Feel++: A computational framework for galerkin methods and advanced numerical methods
C Prud’Homme, V Chabannes, V Doyeux, M Ismail, A Samake, G Pena
ESAIM: Proceedings 38, 429-455, 2012
Simulation of two-fluid flows using a finite element/level set method. Application to bubbles and vesicle dynamics
V Doyeux, Y Guyot, V Chabannes, C Prud’Homme, M Ismail
Journal of Computational and Applied Mathematics 246, 251-259, 2013
High-order fluid–structure interaction in 2D and 3D application to blood flow in arteries
V Chabannes, G Pena, C Prud’Homme
Journal of Computational and Applied Mathematics 246, 1-9, 2013
Vers la simulation numérique des écoulements sanguins
V Chabannes
Université de Grenoble, 2013
Boundary conditions involving pressure for the Stokes problem and applications in computational hemodynamics
S Bertoluzza, V Chabannes, C Prud’Homme, M Szopos
Computer Methods in Applied Mechanics and Engineering 322, 58-80, 2017
Feel++: finite element embedded language in C++
C Prud’homme, V Chabannes, G Pena, S Veys
Free Software available at http://www. feelpp. org. Contributions from A …, 2019
Simulation of vesicle using level set method solved by high order finite element
V Doyeux, V Chabannes, C Prud’Homme, M Ismail
ESAIM: Proceedings 38, 335-347, 2012
Hemodynamic simulations in the cerebral venous network: A study on the influence of different modeling assumptions
V Chabannes, M Ismail, C Prud'Homme, M Szopos
Journal of Coupled Systems and Multiscale Dynamics 3 (1), 23-37, 2015
Towards large-scale three-dimensional blood flow simulations in realistic geometries
C Caldini-Queiros, V Chabannes, M Ismail, G Pena, C Prud’Homme, ...
ESAIM: Proceedings 43, 195-212, 2013
Patient-specific virtual simulator of tissue perfusion in the lamina cribrosa
L Sala, C Prud'Homme, D Prada, F Salerni, C Trophime, V Chabannes, ...
Investigative Ophthalmology & Visual Science 58 (8), 727-727, 2017
From real MRA to virtual MRA: Towards an open-source framework
N Passat, S Salmon, JP Armspach, B Naegel, C Prud’Homme, H Talbot, ...
International Conference on Medical Image Computing and Computer-Assisted …, 2016
Simulation of two fluid flow using a level set method application to bubbles and vesicle dynamics
V Doyeux, V Chabannes, C Prud’homme, M Ismail
Journal of Computational and Applied Mathematics (Accepted), 2012
High-order finite-element framework for the efficient simulation of multifluid flows
T Metivet, V Chabannes, M Ismail, C Prud’homme
Mathematics 6 (10), 203, 2018
High order finite element simulations for fluid dynamics validated by experimental data from the FDA benchmark nozzle model
V Chabannes, C Prud'Homme, M Szopos, R Tarabay
arXiv preprint arXiv:1701.02179, 2017
Advances in Feel++: a domain specific embedded language in C++ for partial differential equations
C Prud'Homme, V Chabannes, V Doyeux, M Ismail, A Samake, G Pena, ...
Eccomas' 12-European Congress on Computational Methods in Applied Sciences …, 2012
feelpp v0. 98.0
C Prud’homme, V Chabannes, S Veys, V Huber, C Daversin, A Ancel, ...
May, 2014
Domain decomposition methods in feel++
A Samaké, V Chabannes, C Picard, C Prud’Homme
Domain Decomposition Methods in Science and Engineering XXI, 397-405, 2014
Comparison of high order algorithms in Aerosol and Aghora for compressible flows
DA Mbengoue, D Genet, C Lachat, E Martin, M Mogé, V Perrier, F Renac, ...
ESAIM: Proceedings 43, 1-16, 2013
3D simulation of two-fluid flows using a finite element/level-set method in 3D. Application to two drop benchmarks
T Metivet, V Chabannes, V Doyeux, M Ismail, C Prud'Homme
Le système ne peut pas réaliser cette opération maintenant. Veuillez réessayer plus tard.
Articles 1–20