Nombre de documents

45

CV de Nejib Zemzemi


Article dans une revue9 documents

  • Jamila Lassoued, Moncef Mahjoub, Nejib Zemzemi. Stability results for the parameter identification inverse problem in cardiac electrophysiology. Inverse Problems, IOP Publishing, 2016, 32, pp.1-31. <10.1088/0266-5611/32/11/115002>. <hal-01399373>
  • R Aboulaich, N Fikal, El Mahdi El Guarmah, N Zemzemi. Stochastic Finite Element Method for torso conductivity uncertainties quantification in electrocardiography inverse problem. Mathematical Modelling of Natural Phenomena, EDP Sciences, 2016, 11 (2), pp.1-19. <10.1051/mmnp/201611201>. <hal-01289144>
  • Cesare Corrado, Jamila Lassoued, Moncef Mahjoub, Nejib Zemzemi. Stability analysis of the POD reduced order method for solving the bidomain model in cardiac electrophysiology. Mathematical Biosciences, Elsevier, 2015, <10.1016/j.mbs.2015.12.005>. <hal-01245685>
  • Nejib Zemzemi, Rodriguez Blanca. Effects of L-type calcium channel and human ether-a-go-go related gene blockers on the electrical activity of the human heart: a simulation study. EP-Europace, Oxford University Press (OUP): Policy B, 2014, <http://europace.oxfordjournals.org/content/early/2014/09/15/europace.euu122.full?keytype=ref&ijkey=z4BP5uLRBlBO3wS>. <10.1093/europace/euu122>. <hal-01064429>
  • Mirams Gary, Christopher J. Arthurs, Miguel O. Bernabeu, Rafel Bordas, Jonathan Cooper, et al.. Chaste: an open source C++ library for computational physiology and biology.. PLoS Computational Biology, Public Library of Science, 2013, 9 (3). <hal-00956373>
  • Nejib Zemzemi, Miguel Oscar Bernabeu, Javier Saiz Rodriguez, Jonathan Cooper, Pras Pathmanathan, et al.. Computational assessment of drug-induced effects on the electrocardiogram: from ion channel to body surface potentials. British Journal of Pharmacology, Wiley, 2012. <hal-00764102>
  • Muriel Boulakia, Serge Cazeau, Miguel Angel Fernández, Jean-Frédéric Gerbeau, Nejib Zemzemi. Mathematical Modeling of Electrocardiograms: A Numerical Study. Annals of Biomedical Engineering, Springer Verlag, 2010, 38 (3), pp.1071-1097. <10.1007/s10439-009-9873-0>. <inria-00400490v2>
  • Miguel Angel Fernández, Nejib Zemzemi. Decoupled time-marching schemes in computational cardiac electrophysiology and ECG numerical simulation. Mathematical Biosciences, Elsevier, 2010, 226 (1), pp.58-75. <10.1016/j.mbs.2010.04.003>. <inria-00411510v3>
  • Muriel Boulakia, Miguel Angel Fernández, Jean-Frédéric Gerbeau, Nejib Zemzemi. A coupled system of PDEs and ODEs arising in electrocardiograms modelling. Applied Mathematics Research eXpress, Oxford University Press (OUP): Policy H - Oxford Open Option A, 2008, 2008, pp.abn002. <10.1093/amrx/abn002>. <hal-00701786>

Poster6 documents

  • Julien Bouyssier, Mostafa Bendahmane, Yves Coudière, Jean-Frédéric Gerbeau, Julien Pedron, et al.. Parameters estimation approach for the MEA/hiPSC-CM assays. Journées scientifiques du LIRYC, Sep 2016, pessac, France. <hal-01409683>
  • Laura Bear, Rémi Dubois, Nejib Zemzemi. Optimization of Organ Conductivity for the Forward Problem of Electrocardiography. Journées scientifiques du LIRYC, Sep 2016, pessac, France. <hal-01402983>
  • Nejib Zemzemi, Yves Coudière, Florian Caro, Marc Fuentes. Overview on the Cardiac ElectroPhysiology Simulator (CEPS). Meeting at the Lyric, Jun 2015, Bordeaux, France. <hal-01204600>
  • Rajae Aboulaich, Najib Fikal, El Mahdi El Guarmah, Nejib Zemzemi. Sensitivity of the electrocardiography inverse solution to the torso conductivity uncertainties. LIRYC scientific day, Jun 2015, Pessac, France. <hal-01222404>
  • Nejib Zemzemi, Mark Potse, L Bear, Yves Coudière, Rémi Dubois, et al.. New Mathematical approaches in Electrocardiography Imaging inverse problem. LIRYC scientific day, Jun 2015, Pessac, France. <hal-01222406>
  • Mehdi Juhoor, Yves Coudière, Nejib Zemzemi. C.E.P.S. : an efficient tool for cardiac electrophysiology simulations. Workshop LIRYC, Oct 2013, Bordeaux, France. <hal-00925834>

Thèse1 document

  • Nejib Zemzemi. Theoretical and Numerical study of the electric activity of the heart. Modeling and Numerical simulation of electrocardiograms.. Mathematics [math]. Université Paris Sud - Paris XI, 2009. English. <tel-00470375>

Autre publication2 documents

  • Julien Bouyssier, Nejib Zemzemi, Jacques Henry. Inverse problem in electrocardiography via factorization method of boundary problems : how reconstruct epicardial potential maps from measurements of the torso ?. Poster Workshop Liryc, 24 et 25 Octobre 2013, Bordeaux. 2013. <hal-00926344>
  • Cesare Corrado, Nejib Zemzemi, Yves Coudière. Reduced Order Methods: Faster Solvers For Cardiac Electro-physiology problems. Poster pour workshop LIRYC. 2013. <hal-00925809>

Communication dans un congrès21 documents

  • Rajae Aboulaich, Najib Fikal, El Mahdi Guarmah, Nejib Zemzemi. Sensitivity of the electrocardiographic forward problem to the heart potential measuement noise and conductivity uncertainties. Colloque africain sur la recherche en informatique et mathématiques appliquées, CARI 2016, Oct 2016, Hammamet, Tunisia. <hal-01402938>
  • Jamila Lassoued, Moncef Mahjoub, Nejib Zemzemi. Identification of sources for the bidomain equation using topological gradient. Colloque africain sur la recherche en informatique et mathématiques appliquées, CARI 2016, Oct 2016, Hammamet, France. <hal-01402953>
  • Abderrahmane Habbal, Moez Kallel, Rabeb Chamekh, Nejib Zemzemi. Decentralized Strategies for Ill Posed Inverse Problems. 5th International Conference on Engineering Optimization, Jun 2016, Iguassu Falls, Brazil. <hal-01405282>
  • Laura Bear, Rémi Dubois, Nejib Zemzemi. Optimization of Organ Conductivity for the Forward Problem of Electrocardiography. Computing In cardiology, Sep 2016, Vancouver, Canada. <hal-01402927>
  • Rabeb Chamekh, Abderrahmane Habbal, Moez Kallel, Nejib Zemzemi. A Nash-game approach to solve the Coupled problem of conductivity identification and data completion. PICOF (Problèmes Inverses, Contrôle et Optimisation de Formes), Jun 2016, Autrans, France. <hal-01402976>
  • Carlos E. Chavez, Felipe Alonso-Atienza, Nejib Zemzemi, Yves Coudière, Diegó Alvarez. Inverse Localization of Ischemia in a 3D Realistic Geometry: A Level Set Approach. Computing in cardiology, Sep 2015, Nice, France. <hal-01241754>
  • Nejib Zemzemi, Cecile Dobrzynski, Laura Bear, Mark Potse, Corentin Dallet, et al.. Effect of the torso conductivity heterogeneities on the ECGI inverse problem solution. Computing in cardiology, Sep 2015, Nice, France. <http://www.cinc2015.org/>. <hal-01241750>
  • Corentin Dallet, Laura Bear, Josselin Duchateau, Mark Potse, Nejib Zemzemi, et al.. Local Conduction Velocity Mapping for Electrocardiographic Imaging. Computing in cardiology, Sep 2015, Nice, France. <hal-01241751>
  • Laura Bear, Mark Potse, Josselin Duchateau, Nejib Zemzemi, Yves Coudière, et al.. Accuracy of Lead Removal vs Linear Interpolation in Non-Invasive Electrocardiographic Imaging (ECGI). Computing in cardiology, Sep 2015, Nice, France. <hal-01241752>
  • Emanuela Abbate, Nejib Zemzemi, Yves Coudière, Jean-Frédéric Gerbeau. In silico assessment of drugs effects on human embryonic stem cells derived cardiomyocytes electrical activity. LACM 2015 (2nd International Workshop on Latest Advances in Cardiac Modeling), Mar 2015, German Heart Center, Munich, Germany. 2015, <https://www.lnm.mw.tum.de/lacm2015/>. <hal-01202019>
  • Nejib Zemzemi. An iterative method for solving the inverse problem in electrocardiography in normal and fibrillation conditions: A simulation Study. Milan Tysler; Jana Svehlikova; Ljuba Bacharaova; Katarina Kozlikova. International Congress on Electrocardiology (ICE), Jun 2014, Bratislava, Slovakia. pp.53-56, 2014. <hal-01064445>
  • Nejib Zemzemi, Julien Bouyssier. Inverse ECG problem using the factorization method. PICOF'2014, May 2014, Hammamet, Tunisia. <hal-01114023>
  • Nejib Zemzemi, Hamed Bourenane, H. Cochet. An Iterative method for solving the inverse problem in Electrocardiography imaging: From body surface to heart potential.. IEEE Computers in Cardiology, Sep 2014, Cambridge, United States. 2014. <hal-01065107>
  • Louie Cardone-Noott, Alfonso Bueno-Orovio, Ana Mincholé, Kevin Burrage, Mikael Wallman, et al.. A Computational Investigation into the Effect of Infarction on Clinical Human Electrophysiology Biomarkers. IEEE Computers in Cardiology, Sep 2014, Cambridge, United States. 2014. <hal-01065716>
  • Nejib Zemzemi. A Domain Decomposition Approch in the Electrocardiography Inverse Problem. Domain Decomposition 22, Sep 2013, Lugano, Switzerland. 2014. <hal-01065692>
  • Nejib Zemzemi, Rémi Dubois, Yves Coudière, Olivier Bernus, M. Haïssaguerre. A Machine Learning Technique Regularization of the Inverse Problem in Cardiac Electrophysiology. Laguna, Pablo. CinC - Computing in Cardiology Conference, Sep 2013, Zaragoza, Spain. IEEE, pp.285-312, 2013. <hal-00920954>
  • Nejib Zemzemi. A Steklov-Poincaré Variational Formulation of the Inverse Problem in Cardiac Electrophysiology. Laguna, Pablo. CinC - Computing in Cardiology Conference, Sep 2013, Zaragoza, Spain. IEEE, pp.193, 2013. <hal-00920960>
  • Nejib Zemzemi, Javier Saiz Rodriguez, Rodriguez Blanca. Role of L-type Calcium in Modulating Pro-Arrhythmic Effects of Dofetilide in Human. Computing in Cardiology, Sep 2012, Krakow, Poland. 2012. <hal-00764090>
  • Nejib Zemzemi, Simon Labarthe, Rémi Dubois, Yves Coudière. From Body Surface Potential to Activation Maps on the Atria: a Machine Learning Technique. CINC - Computing in Cardiology 2012, Sep 2012, Krakow, Poland. 39, pp.125-128, 2012, Computing in Cardiology 2012,. <www.cinc.org/archives/2012/pdf/0125.pdf>. <hal-00759210>
  • Dominique Chapelle, Miguel Angel Fernández, Jean-Frédéric Gerbeau, Philippe Moireau, Jacques Sainte-Marie, et al.. Numerical simulation of the electromechanical activity of the heart. Ayache, Nicholas and Delingette, Hervé and Sermesant, Maxime. Functional Imaging and Modeling of the Heart, 2009, Nice, France. Springer-Verlag, 5528, pp.357-365, 2009, Lecture Notes in Computer Science; Functional Imaging and Modeling of the Heart. <http://www.springer.com/computer/image+processing/book/978-3-642-01931-9>. <inria-00542779>
  • Géraldine Ebrard, Miguel Angel Fernández, Jean-Frédéric Gerbeau, Fabrice Rossi, Nejib Zemzemi. From intracardiac electrograms to electrocardiograms. Models and metamodels. Ayache, Nicholas and Delingette, Hervé and Sermesant, Maxime. Functional Imaging and Modeling of the Heart, 2009, Nice, France. Springer Verlag, 5528, pp.524-533, 2009, Lecture Notes in Computer Science; Functional Imaging and Modeling of the Heart. <http://www.springer.com/computer/image+processing/book/978-3-642-01931-9>. <inria-00542776>

Chapitre d'ouvrage2 documents

  • Nejib Zemzemi, Rajae Aboulaich, Najib Fikal, El Mahdi El Guarmah. Sensitivity of the Electrocardiography Inverse Solution to the Torso Conductivity Uncertainties. Hans van Assen; Peter Bovendeerd ; Tammo Delhaas. Functional Imaging and Modeling of the Heart, Lecture Notes in Computer Science (9126), Springer, pp.475-483, 2015, 8th International Conference, FIMH 2015, Maastricht, The Netherlands, June 25-27, 2015. Proceedings, 978-3-319-20308-9. <10.1007/978-3-319-20309-6_54>. <http://link.springer.com/chapter/10.1007%2F978-3-319-20309-6_54>. <hal-01222381>
  • Muriel Boulakia, Miguel Angel Fernández, Jean-Frédéric Gerbeau, Nejib Zemzemi. Numerical simulations of electrocardiograms. Ambrosi, D. and Quarteroni, A. and Rozza, G. Modeling of Physiological Flows, Springer, pp.77-106, 2011, 978-88-470-1934-8. <hal-00652367>

Direction d'ouvrage, Proceedings2 documents

Rapport2 documents

  • Jamila Lassoued, Moncef Mahjoub, Nejib Zemzemi. Numerical Investigation on the usefulness of Proper Orthogonal Decomposition method in cardiac electrophysiology. [Research Report] 2014, pp.20. <hal-01058655>
  • Muriel Boulakia, Miguel Angel Fernández, Jean-Frédéric Gerbeau, Nejib Zemzemi. A coupled system of PDEs and ODEs arising in electrocardiograms modelling. [Research Report] RR-6352, INRIA. 2007, pp.24. <inria-00186852v3>