Sélection bibliographique

Chudin E, Garfinkel A, Weiss J, Karplus W, Kogan B. Wave propagation in 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.

Holden AV, Panfilov AV. Modelling propagation in excitable media, pp 65-99.
Hunter PJ, Smaill BH, Nielsen PMF, LeGrice IJ. A mathematical model of 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.

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.

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.

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.
LeTallec P, Rahier C, Kaiss A. Three-dimensional incompressible 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.