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ORCIDYves Coudière
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2020 – today
- 2023
[c42]Emma Lagracie, Lisl Weynans, Yves Coudière:
Comparison of Two Formulations for Computing Body Surface Potential Maps. CinC 2023: 1-4- [c41]Valentin Pannetier, Michael Leguèbe, Yves Coudière, Richard D. Walton, Philippe Dhiver, Delphine Feuerstein, Diego Amaro:
Modeling Cardiac Stimulation by a Pacemaker, with Accurate Tissue-Electrode Interface. FIMH 2023: 194-203 - 2022
- [c40]Chiheb Sakka, Amina Guermouche, Olivier Aumage, Emmanuelle Saillard, Mark Potse, Yves Coudière, Denis Barthou
:
A Comparison of Multithreading, Vectorization, and GPU Computing for the Acceleration of Cardiac Electrophysiology Models. CinC 2022: 1-4 - 2021
- [c39]Narimane Gassa, Nejib Zemzemi, Cesare Corrado, Yves Coudière:
Spiral Waves Generation Using an Eikonal-Reaction Cardiac Electrophysiology Model. FIMH 2021: 523-530 - [c38]Mohamadou Malal Diallo, Yves Coudière, Rémi Dubois:
A Volume Source Method for Solving ECGI Inverse Problem. FIMH 2021: 551-560 - 2020
- [c37]M. Malal Diallo, Mark Potse, Rémi Dubois, Yves Coudière:
Solving the ECGI Problem with Known Locations of Scar Regions. CinC 2020: 1-4 - [c36]Mark Potse, Emmanuelle Saillard, Denis Barthou, Yves Coudière:
Feasibility of Whole-Heart Electrophysiological Models With Near-Cellular Resolution. CinC 2020: 1-4 - [c35]Bachar Tarraf, Michael Leguèbe, Yves Coudière, Emmanuel Suraniti, Camille Colin, Stephane Arbault, Philippe Diolez:
Global Sensitivity Analysis for Uncertain Parameters Applied to a Cardiac Mitochondrial Model. CinC 2020: 1-4
2010 – 2019
- 2019
- [j9]Yves Coudière, Rodolphe Turpault:
A domain decomposition strategy for a very high-order finite volumes scheme applied to cardiac electrophysiology. J. Comput. Sci. 37 (2019) - [c34]Bachar Tarraf, Michael Leguèbe, Yves Coudière, Philippe Diolez:
Thermodynamical Fluxes for the Modeling of Cardiac Mitochondrial Calcium Handling. CinC 2019: 1-4 - [c33]Antoine Gérard, Annabelle Collin, Gautier Bureau, Philippe Moireau, Yves Coudière:
Model Assessment Through Data Assimilation of Realistic Data in Cardiac Electrophysiology. FIMH 2019: 121-130 - [e1]Yves Coudière, Valéry Ozenne, Edward J. Vigmond, Nejib Zemzemi:
Functional Imaging and Modeling of the Heart - 10th International Conference, FIMH 2019, Bordeaux, France, June 6-8, 2019, Proceedings. Lecture Notes in Computer Science 11504, Springer 2019, ISBN 978-3-030-21948-2 [contents] - 2018
- [j8]Charlie Douanla-Lontsi, Yves Coudière, Charles Pierre:
Efficient high order schemes for stiff ODEs in cardiac electrophysiology. ARIMA J. 28 (2018) - [j7]Yves Coudière, Charlie Douanla-Lontsi, Charles Pierre:
Exponential Adams-Bashforth integrators for stiff ODEs, application to cardiac electrophysiology. Math. Comput. Simul. 153: 15-34 (2018) - [j6]Fabien Raphel, Muriel Boulakia, Nejib Zemzemi, Yves Coudière, Jean-Michel Guillon, Philippe Zitoun, Jean-Frédéric Gerbeau:
Identification of Ion Currents Components Generating Field Potential Recorded in MEA From hiPSC-CM. IEEE Trans. Biomed. Eng. 65(6): 1311-1319 (2018) - [c32]Pierre-Elliott Bécue, Mark Potse, Yves Coudière:
Microscopic Simulation of the Cardiac Electrophysiology: A Study of the Influence of Different Gap Junctions Models. CinC 2018: 1-4 - 2017
- [j5]Yves Coudière, Rodolphe Turpault:
Very high order finite volume methods for cardiac electrophysiology. Comput. Math. Appl. 74(4): 684-700 (2017) - [j4]Yves Coudière, Jacques Henry, Simon Labarthe:
An Asymptotic Two-Layer Monodomain Model of Cardiac Electrophysiology in the Atria: Derivation and Convergence. SIAM J. Appl. Math. 77(2): 409-429 (2017) - [c31]Pierre-Elliott Bécue, Mark Potse, Yves Coudière:
A Three-dimensional Computational Model of Action Potential Propagation through a Network of Individual Cells. CinC 2017 - [c30]Judit Chamorro-Servent, Rémi Dubois, Yves Coudière:
Exploring Possible Choices of the Tikhonov Regularization Parameter for the Method of Fundamental Solution in Electrocardiography. CinC 2017 - [c29]Michal Kania, Yves Coudière, Hubert Cochet, Michel Haïssaguerre, Pierre Jaïs, Mark Potse:
Prediction of the Exit Site of Ventricular Tachycardia Based on Different ECG Lead Systems. CinC 2017 - [c28]Gwladys Ravon, Rémi Dubois, Yves Coudière, Mark Potse:
A Parameter Optimization to Solve the Inverse Problem in Electrocardiography. FIMH 2017: 219-229 - [c27]Andela Davidovic, Yves Coudière, Yves Bourgault:
Image-Based Modeling of the Heterogeneity of Propagation of the Cardiac Action Potential. Example of Rat Heart High Resolution MRI. FIMH 2017: 260-270 - [c26]Judit Chamorro-Servent, Rémi Dubois, Mark Potse, Yves Coudière:
Improving the Spatial Solution of Electrocardiographic Imaging: A New Regularization Parameter Choice Technique for the Tikhonov Method. FIMH 2017: 289-300 - 2016
- [c25]Judit Chamorro-Servent, Laura Bear, Josselin Duchateau, Mark Potse, Rémi Dubois, Yves Coudière:
Do we need to enforce the homogeneous Neumann condition on the torso for solving the inverse electrographic problem? CinC 2016 - [c24]Judit Chamorro-Servent, Laura Bear, Josselin Duchateau, Corentin Dallet, Yves Coudière, Rémi Dubois:
Adaptive placement of the pseudo-boundaries improves the conditioning of the inverse problem. CinC 2016 - 2015
- [c23]Corentin Dallet, Laura Bear, Josselin Duchateau, Mark Potse, Nejib Zemzemi, Valentin Meillet, Yves Coudière, Rémi Dubois:
Local Conduction Velocity Mapping for Electrocardiographic Imaging. CinC 2015: 225-228 - [c22]Carlos Eduardo Chávez, Felipe Alonso Atienza, Nejib Zemzemi, Yves Coudière, Diego Álvarez:
Inverse Localization of Ischemia in a 3D Realistic Geometry: A Level Set Approach. CinC 2015: 229-232 - [c21]Nejib Zemzemi, Cecile Dobrzynski, Laura Bear, Mark Potse, Corentin Dallet, Yves Coudière, Rémi Dubois, Josselin Duchateau:
Effect of the Torso Conductivity Heterogeneities on the ECGI Inverse Problem Solution. CinC 2015: 233-236 - [c20]Andjela Davidovic, Yves Coudière, Thomas Desplantez, Clair Poignard:
Microscopic Modelling of the Non-Linear Gap Junction Channels. CinC 2015: 425-428 - [c19]Laura Bear, Mark Potse, Josselin Duchateau, Nejib Zemzemi, Yves Coudière, Rémi Dubois:
Accuracy of Lead Removal Versus Linear Interpolation in Noninvasive Electrocardiographic Imaging (ECGI). CinC 2015: 941-944 - [c18]Josselin Duchateau, Yves Coudière, Mélèze Hocini, Michel Haïssaguerre, Rémi Dubois:
Virtual Normal Bipolar and Laplacian Electrodes for Activation Map Construction in ECGi. CinC 2015: 949-952 - [c17]Carlos Eduardo Chávez, Nejib Zemzemi, Yves Coudière, Felipe Alonso Atienza, Diego Álvarez:
Inverse Problem of Electrocardiography: Estimating the Location of Cardiac Ischemia in a 3D Realistic Geometry. FIMH 2015: 393-401 - [c16]Gwladys Ravon, Yves Coudière, Angelo Iollo, Olivier Bernus, Richard D. Walton:
Issues in Modeling Cardiac Optical Mapping Measurements. FIMH 2015: 457-465 - 2014
- [c15]Gwladys Ravon, Yves Coudière, Angelo Iollo, Olivier Bernus, Richard D. Walton:
Localization of Three-Dimensional Sources in Cardiac Tissue Using Optical Mapping. CinC 2014: 829-832 - [c14]Yves Coudière, Andjela Davidovic, Clair Poignard:
The Modified Bidomain Model with Periodic Diffusive Inclusions. CinC 2014: 1033-1036 - 2013
- [j3]Yves Coudière, Mazen Saad, Alexandre Uzureau:
Analysis of a finite volume method for a bone growth system in vivo. Comput. Math. Appl. 66(9): 1581-1594 (2013) - [c13]Nejib Zemzemi, Rémi Dubois, Yves Coudière, Olivier Bernus, Michel Haïssaguerre:
A Machine Learning Regularization of the Inverse Problem in Cardiac Electrophysiology Imaging. CinC 2013: 1135-1138 - [c12]Simon Labarthe, Edward J. Vigmond, Yves Coudière, Jacques Henry, Hubert Cochet, Pierre Jaïs:
Influence of Transmural Slow-Conduction Zones on the Long-Time Behaviour of Atrial Arrhythmia: a Numerical Study with a Human Bilayer Atrial Model. CinC 2013: 1187-1190 - [c11]Edward J. Vigmond, Simon Labarthe, Hubert Cochet, Yves Coudière, Jacques Henry, Pierre Jaïs:
A bilayer representation of the human atria. EMBC 2013: 1530-1533 - [c10]Simon Labarthe, Edward J. Vigmond, Yves Coudière, Jacques Henry, Hubert Cochet, Pierre Jaïs:
A Computational Bilayer Surface Model of Human Atria. FIMH 2013: 27-34 - 2012
- [c9]Mihaela Pop, Maxime Sermesant, Roey Flor, Charles Pierre, Tommaso Mansi, Samuel O. Oduneye, Jennifer Barry, Yves Coudière, Eugene Crystal, Nicholas Ayache, Graham A. Wright:
In vivo Contact EP Data and ex vivo MR-Based Computer Models: Registration and Model-Dependent Errors. STACOM 2012: 364-374 - 2011
- [j2]Yves Coudière, Florence Hubert:
A 3D Discrete Duality Finite Volume Method for Nonlinear Elliptic Equations. SIAM J. Sci. Comput. 33(4): 1739-1764 (2011) - [c8]Mihaela Pop, Maxime Sermesant, Tommaso Mansi, Eugene Crystal, Sudip Ghate, Jatin Relan, Charles Pierre, Yves Coudière, Jennifer Barry, Ilan Lashevsky, Beiping Qiang, Elliot R. McVeigh, Nicholas Ayache, Graham A. Wright:
EP Challenge - STACOM'11: Forward Approaches to Computational Electrophysiology Using MRI-Based Models and In-Vivo CARTO Mapping in Swine Hearts. STACOM 2011: 1-13 - 2010
- [j1]Yves Coudière, Gianmarco Manzini:
The Discrete Duality Finite Volume Method for Convection-diffusion Problems. SIAM J. Numer. Anal. 47(6): 4163-4192 (2010)
2000 – 2009
- 2007
- [c7]Maxime Sermesant, Ender Konukoglu, Hervé Delingette, Yves Coudière, Phani Chinchapatnam, Kawal S. Rhode, Reza Razavi, Nicholas Ayache:
An Anisotropic Multi-front Fast Marching Method for Real-Time Simulation of Cardiac Electrophysiology. FIMH 2007: 160-169 - 2006
- [c6]Mihaela Pop, Maxime Sermesant, Yves Coudière, John J. Graham, Michael J. Bronskill, Alexander Dick, Graham A. Wright:
A theoretical model of ventricular reentry and its radiofrequency ablation therapy. ISBI 2006: 33-36 - 2005
- [c5]Maxime Sermesant, Yves Coudière, Valérie Moreau-Villéger, Kawal S. Rhode, Derek L. G. Hill, Reza Razavi:
A Fast-Marching Approach to Cardiac Electrophysiology Simulation for XMR Interventional Imaging. MICCAI (2) 2005: 607-615 - 2003
- [c4]Maxime Sermesant, Owen Faris, Franck Evans, Elliot R. McVeigh, Yves Coudière, Hervé Delingette, Nicholas Ayache:
Preliminary Validation Using in vivo Measures of a Macroscopic Electrical Model of the Heart. IS4TH 2003: 230-243 - 2002
- [c3]Maxime Sermesant, Yves Coudière, Hervé Delingette, Nicholas Ayache:
Progress towards an electromechanical model of the heart for cardiac image analysis. ISBI 2002: 10-13 - 2001
- [c2]Nicholas Ayache, Dominique Chapelle, Frédérique Clément, Yves Coudière, Hervé Delingette, Jean-Antoine Désidéri, Maxime Sermesant, Michel Sorine, José M. Urquiza:
Towards Model-Based Estimation of the Cardiac Electro-Mechanical Activity from ECG Signals and Ultrasound Images. FIMH 2001: 120-127 - [c1]Maxime Sermesant, Yves Coudière, Hervé Delingette, Nicholas Ayache, Jean-Antoine Désidéri:
An Electro-mechanical Model of the Heart for Cardiac Image Analysis. MICCAI 2001: 224-231
Coauthor Index
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