Sélection bibliographique
Computational Biology of the Heart: From Structure to Function, Progress in Biophysics & Molecular Biology, 1998, 69(2-3)
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cardiac tissue and effects of intracellular calcium dynamics (computer
simulation study), pp 225-236.
- Duncan J, Shi P, Constable T, Sinusas A. Physical and geometrical modelling
for image-based recovery of left ventricular deformation, pp 333-351.
- Hunter PJ, McCulloch AD, ter Keurs HEDJ. Modelling the mechanical properties of cardiac muscle, pp 289-331.
- Johnson CR, McLeod RS. Adaptative local regularization methods for the
inverse ECG problem, pp 405-423.
- Vetter FJ, Mc Cullogh AD. Three-dimensional analysis of regional cardiac
function: a model of rabbit ventricular anatomy, pp 157-153.
Computational biology of the heart, Eds Panfilov AV and Holden
AV, John Wiley & Sons, 1996
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cardiac anatomy, pp 171-215.
- Hunter PJ, Nash MP, Sands SB. Computational electromechanics of the
heart, pp 345-407.
- Rogers J, Courtemanche M, McCullogh A. Finite element methods for modelling
impulse propagation in the heart, pp 217-233.
- Forward and inverse problems in electrocardiography, pp 295-343.
Reconstruction géométrique
- Cotin S, Delingette H, Ayache N. Real-time elastic deformations of soft
tissues for surgery simulation. IEEE Transactions On Visualization and
Computer Graphics, 5(1): 62-73, January-March 1999.
- Declerck J, Feldmar J, Ayache N. Definition of a four-dimensional
continuous planispheric transformation for the tracking and the analysis of
left-ventricle motion. Medical Image Analysis, 2(2): 197-213, June 1998.
- Montagnat J, Delingette H, Malandain G. Cylindrical Echocardiographic
Images Segmentation based on 3D Deformable Models. Medical Image Computing
and Computer-Assisted Intervention (MICCA I'99), volume 1679 of
Lectures Notes in Computer Science , pages 168-175, Cambridge, UK, September 1999, Springer.
- Nastar C, Ayache N. Frequency-based nonrigid motion analysis:
Application to 4 dimensional medical images. IEEE Transaction on Pattern
Analysis and Machine Intelligence (PAMI), 18(11): 1067-1079, November 1996.
Modélisation électromécanique
- Bestel J, Clairambault J, Médigue C, Monti A, Sorine M. Le
système cardio-vasculaire et sa régulation par le système
nerveux autonome: modélisation et mesures. In Actes du Programme de
recherche Automatique, Biologie et Santé: Modélisation et
commande de régulations biologiques, Ed Claude D, Journée
thématique du GdR Automatique, Paris, 27 mai 1999.
- Bestel J, Sorine M. Modélisation mathématique de la
contraction musculaire. Application au système
cardio-vasculaire. Rapport de recherche INRIA, à paraître.
- Landau M, Lorente P. Conduction block and chaotic dynamics in an
asymmetrical model of coupled cardiac cells. Theoretical Biology,
p.93-105, 1997.
- Landau M, Bardou A. Driving patterns of a large non-pacemaker cell by a
small pacemaker one. Associated chaotic and coexisting stable states phenomena
Computers in Cardiology, à paraître.
Simulation
- Le Tallec P. Numerical Methods for Nonlinear Three-Dimensional
Elasticity. Eds Ciarlet PG, Lions JL, Volume 3, p.465-622, 1994.
- Kaiss A. La modélisation numérique du comportement viscoélastique de
l'oeil et du contact oeil-trépan Thèse de doctorat, Université Paris 6, 21 juillet 1994.
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viscoelasticity in large strains: formulation and numerical
approximation. Computer Methods in Applied Mechanics and Engineering, 109: 233-258, 1993.
- Kunish K, Volkwein S. Galerkin Proper Orthogonal Decomposition Methods for
Parabolic Problems Université de Graz, Autriche, à paraître .
- Vigo G. La décomposition orthogonale appliquée aux équations de
Navier-Stokes compressibles instationnaires. Rapport de Recherche INRIA, 3385, mars 1998.
- Vigo G. Dirichlet condition for POD. Rapport de Recherche INRIA, à
paraître.
- Iollo A, Dervieux A, Desideri JA, Lanteri S. Two Stable POD-based
approximations, to the Navier-Stokes equations. Computing and Visualisation
in Science, à paraître.
- Iollo A, Lanteri S. Approximation of compressible flows by a reduced order
model. 6th ICMNFD, Arcachon,à paraître.
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