BACK TO INDEX

Publications of year 2016

Thesis

  1. Mehdi Hadj-Hamou. Beyond volumetry in longitudinal deformation-based morphometry : application to sexual dimorphism during adolescence. Theses, Université Côte d'Azur, December 2016. Keyword(s): Longitudinal images, Evaluation, Volumetric methods, Processing pipeline, Non-rigid registration, Sexual dimorphism, Group comparison, Multivariate statistics, Images longitudinales, Évaluation, Statistiques multivariées, Comparaison de groupe, Dimorphisme sexuel, Chaîne de traitement, Recalage non-linéaire, Méthodes pour la volumétrie.
    @phdthesis{hadjhamou:tel-01416569,
    TITLE = {{Beyond volumetry in longitudinal deformation-based morphometry : application to sexual dimorphism during adolescence}},
    AUTHOR = {Hadj-Hamou, Mehdi},
    url-hal= {https://theses.hal.science/tel-01416569},
    NUMBER = {2016AZUR4141},
    SCHOOL = {{Universit{\'e} C{\^o}te d'Azur}},
    YEAR = {2016},
    MONTH = Dec,
    KEYWORDS = {Longitudinal images ; Evaluation ; Volumetric methods ; Processing pipeline ; Non-rigid registration ; Sexual dimorphism ; Group comparison ; Multivariate statistics ; Images longitudinales ; {\'E}valuation ; Statistiques multivari{\'e}es ; Comparaison de groupe ; Dimorphisme sexuel ; Cha{\^i}ne de traitement ; Recalage non-lin{\'e}aire ; M{\'e}thodes pour la volum{\'e}trie},
    TYPE = {Theses},
    PDF = {https://theses.hal.science/tel-01416569v2/file/2016AZUR4141.pdf},
    HAL_ID = {tel-01416569},
    HAL_VERSION = {v2},
    
    }
    


  2. Bishesh Khanal. Modeling and simulation of realistic longitudinal structural brain MRIs with atrophy in Alzheimer's disease. Theses, Université Nice Sophia Antipolis, July 2016. Keyword(s): Neurodegeneration, Alzheimer's disease, Biophysical modelling, Simulation of atrophy, Longitudinal MRIs simulation, Biomechanical simulation, Synthetic longitudinal images, Neurodégénérescence, Maladie d'Alzheimer, Modélisation biophysique, Simulation de l'atrophie, Simulation d'IRM longitudinale, Simulation biomécanique, Images longitudinales synthétiques.
    @phdthesis{khanal:tel-01384678,
    TITLE = {{Modeling and simulation of realistic longitudinal structural brain MRIs with atrophy in Alzheimer's disease}},
    AUTHOR = {Khanal, Bishesh},
    url-hal= {https://theses.hal.science/tel-01384678},
    NUMBER = {2016NICE4046},
    SCHOOL = {{Universit{\'e} Nice Sophia Antipolis}},
    YEAR = {2016},
    MONTH = Jul,
    KEYWORDS = {Neurodegeneration ; Alzheimer's disease ; Biophysical modelling ; Simulation of atrophy ; Longitudinal MRIs simulation ; Biomechanical simulation ; Synthetic longitudinal images ; Neurod{\'e}g{\'e}n{\'e}rescence ; Maladie d'Alzheimer ; Mod{\'e}lisation biophysique ; Simulation de l'atrophie ; Simulation d'IRM longitudinale ; Simulation biom{\'e}canique ; Images longitudinales synth{\'e}tiques},
    TYPE = {Theses},
    PDF = {https://theses.hal.science/tel-01384678/file/2016NICE4046.pdf},
    HAL_ID = {tel-01384678},
    HAL_VERSION = {v1},
    
    }
    


  3. Matthieu Lê. Brain tumor growth modeling : application to radiotherapy. Theses, Université Nice Sophia Antipolis, June 2016. Keyword(s): Medical imaging, Biophysical model, Personalization, Radiotherapy, Segmentation, Uncertainty, Imagerie médicale, Modèle biophysique, Personnalisation, Radiothérapie, Segmentation, Incertitude.
    @phdthesis{le:tel-01376688,
    TITLE = {{Brain tumor growth modeling : application to radiotherapy}},
    AUTHOR = {L{\^e}, Matthieu},
    url-hal= {https://theses.hal.science/tel-01376688},
    NUMBER = {2016NICE4034},
    SCHOOL = {{Universit{\'e} Nice Sophia Antipolis}},
    YEAR = {2016},
    MONTH = Jun,
    KEYWORDS = {Medical imaging ; Biophysical model ; Personalization ; Radiotherapy ; Segmentation ; Uncertainty ; Imagerie m{\'e}dicale ; Mod{\`e}le biophysique ; Personnalisation ; Radioth{\'e}rapie ; Segmentation ; Incertitude},
    TYPE = {Theses},
    PDF = {https://theses.hal.science/tel-01376688v2/file/Thesis_Matthieu_Le.pdf},
    HAL_ID = {tel-01376688},
    HAL_VERSION = {v2},
    
    }
    


  4. Nina Miolane. Geometric statistics for computational anatomy. Theses, Université Côte d'Azur, December 2016. Keyword(s): Anatomy, Statistics, Geometry, Medical imaging, Imagerie médicale, Anatomie, Géométrie, Statistiques.
    @phdthesis{miolane:tel-01411886,
    TITLE = {{Geometric statistics for computational anatomy}},
    AUTHOR = {Miolane, Nina},
    url-hal= {https://theses.hal.science/tel-01411886},
    NUMBER = {2016AZUR4146},
    SCHOOL = {{Universit{\'e} C{\^o}te d'Azur}},
    YEAR = {2016},
    MONTH = Dec,
    KEYWORDS = {Anatomy ; Statistics ; Geometry ; Medical imaging ; Imagerie m{\'e}dicale ; Anatomie ; G{\'e}om{\'e}trie ; Statistiques},
    TYPE = {Theses},
    PDF = {https://theses.hal.science/tel-01411886v2/file/2016AZUR4146.pdf},
    HAL_ID = {tel-01411886},
    HAL_VERSION = {v2},
    
    }
    


  5. Maxime Sermesant. When Cardiac Biophysics Meets Groupwise Statistics: Complementary Modelling Approaches for Patient-Specific Medicine. Habilitation à diriger des recherches, Université de Nice - Sophia Antipolis, June 2016. Keyword(s): cardiac modelling, biophysics, statistics, machine learning, modélisation cardiaque.
    @phdthesis{sermesant:tel-01337145,
    TITLE = {{When Cardiac Biophysics Meets Groupwise Statistics: Complementary Modelling Approaches for Patient-Specific Medicine}},
    AUTHOR = {Sermesant, Maxime},
    url-hal= {https://inria.hal.science/tel-01337145},
    SCHOOL = {{Universit{\'e} de Nice - Sophia Antipolis}},
    YEAR = {2016},
    MONTH = Jun,
    KEYWORDS = {cardiac modelling ; biophysics ; statistics ; machine learning ; mod{\'e}lisation cardiaque},
    TYPE = {Habilitation {\`a} diriger des recherches},
    PDF = {https://inria.hal.science/tel-01337145/file/HDR.pdf},
    HAL_ID = {tel-01337145},
    HAL_VERSION = {v1},
    
    }
    


  6. Anant Suraj Vemuri. Inter-operative biopsy site relocalization in gastroscopy : application to oesophagus. Theses, Université Nice Sophia Antipolis, April 2016. Keyword(s): Gastro-intestinal endoscopy, Inter-operative relocalization, Electromagnetic tracking, Endoscopie gastro-intestinale, Relocalisation préopératoire, Suivi électromagnétique.
    @phdthesis{vemuri:tel-01310047,
    TITLE = {{Inter-operative biopsy site relocalization in gastroscopy : application to oesophagus}},
    AUTHOR = {Vemuri, Anant Suraj},
    url-hal= {https://theses.hal.science/tel-01310047},
    NUMBER = {2016NICE4018},
    SCHOOL = {{Universit{\'e} Nice Sophia Antipolis}},
    YEAR = {2016},
    MONTH = Apr,
    KEYWORDS = {Gastro-intestinal endoscopy ; Inter-operative relocalization ; Electromagnetic tracking ; Endoscopie gastro-intestinale ; Relocalisation pr{\'e}op{\'e}ratoire ; Suivi {\'e}lectromagn{\'e}tique},
    TYPE = {Theses},
    PDF = {https://theses.hal.science/tel-01310047v3/file/2016NICE4018.pdf},
    HAL_ID = {tel-01310047},
    HAL_VERSION = {v3},
    
    }
    


Articles in journal, book chapters

  1. Martino Alessandrini, Brecht Heyde, Sandro Queirós, Szymon Cygan, Maria Zontak, Oudom Somphone, Olivier Bernard, Maxime Sermesant, Hervé Delingette, Daniel Barbosa, Mathieu de Craene, Matthew O'Donnell, and Jan d'Hooge. Detailed Evaluation of Five 3D Speckle Tracking Algorithms Using Synthetic Echocardiographic Recordings. IEEE Transactions on Medical Imaging, 35(8):1915-1926, 2016.
    @article{alessandrini:hal-01373083,
    TITLE = {{Detailed Evaluation of Five 3D Speckle Tracking Algorithms Using Synthetic Echocardiographic Recordings}},
    AUTHOR = {Alessandrini, Martino and Heyde, Brecht and Queir{\'o}s, Sandro and Cygan, Szymon and Zontak, Maria and Somphone, Oudom and Bernard, Olivier and Sermesant, Maxime and Delingette, Herv{\'e} and Barbosa, Daniel and de Craene, Mathieu and O'Donnell, Matthew and d'Hooge, Jan},
    url-hal= {https://hal.science/hal-01373083},
    JOURNAL = {{IEEE Transactions on Medical Imaging}},
    PUBLISHER = {{Institute of Electrical and Electronics Engineers}},
    VOLUME = {35},
    NUMBER = {8},
    PAGES = {1915-1926},
    YEAR = {2016},
    DOI = {10.1109/TMI.2016.2537848},
    PDF = {https://hal.science/hal-01373083/file/main.pdf},
    HAL_ID = {hal-01373083},
    HAL_VERSION = {v1},
    
    }
    


  2. Chloé Audigier, Tommaso Mansi, Hervé Delingette, Saikiran Rapaka, Tiziano Passerini, Viorel Mihalef, Marie-Pierre Jolly, Raoul Pop, Michele Diana, Luc Soler, Ali Kamen, Dorin Comaniciu, and Nicholas Ayache. Comprehensive Pre-Clinical Evaluation of a Multi-physics Model of Liver Tumor Radiofrequency Ablation. International Journal of Computer Assisted Radiology and Surgery, December 2016.
    @article{audigier:hal-01423321,
    TITLE = {{Comprehensive Pre-Clinical Evaluation of a Multi-physics Model of Liver Tumor Radiofrequency Ablation}},
    AUTHOR = {Audigier, Chlo{\'e} and Mansi, Tommaso and Delingette, Herv{\'e} and Rapaka, Saikiran and Passerini, Tiziano and Mihalef, Viorel and Jolly, Marie-Pierre and Pop, Raoul and Diana, Michele and Soler, Luc and Kamen, Ali and Comaniciu, Dorin and Ayache, Nicholas},
    url-hal= {https://inria.hal.science/hal-01423321},
    JOURNAL = {{International Journal of Computer Assisted Radiology and Surgery}},
    PUBLISHER = {{Springer Verlag}},
    YEAR = {2016},
    MONTH = Dec,
    DOI = {10.1007/s11548-016-1517-x},
    PDF = {https://inria.hal.science/hal-01423321/file/IJCARS_Audigier_2016.pdf},
    HAL_ID = {hal-01423321},
    HAL_VERSION = {v1},
    
    }
    


  3. Nicholas Ayache. Medical Imaging Informatics: Towards a Personalized Computational Patient. IMIA Yearbook of Medical Informatics, 25(Suppl. 1):S8-S9, 2016.
    @article{ayache:hal-01320985,
    TITLE = {{Medical Imaging Informatics: Towards a Personalized Computational Patient}},
    AUTHOR = {Ayache, Nicholas},
    url-hal= {https://inria.hal.science/hal-01320985},
    JOURNAL = {{IMIA Yearbook of Medical Informatics}},
    PUBLISHER = {{Schattauer}},
    VOLUME = {25},
    NUMBER = {Suppl. 1},
    PAGES = {S8-S9},
    YEAR = {2016},
    DOI = {10.15265/IYS-2016-s002},
    PDF = {https://inria.hal.science/hal-01320985/file/Ayache-IMIA-Yearbook-2016-v6-preprint.pdf},
    HAL_ID = {hal-01320985},
    HAL_VERSION = {v1},
    
    }
    


  4. Nicholas Ayache and James Duncan. 20th anniversary of the medical image analysis journal (MedIA). Medical Image Analysis, 33:1-3, October 2016.
    @article{ayache:hal-01353697,
    TITLE = {{20th anniversary of the medical image analysis journal (MedIA)}},
    AUTHOR = {Ayache, Nicholas and Duncan, James},
    url-hal= {https://inria.hal.science/hal-01353697},
    JOURNAL = {{Medical Image Analysis}},
    PUBLISHER = {{Elsevier}},
    VOLUME = {33},
    PAGES = {1-3},
    YEAR = {2016},
    MONTH = Oct,
    DOI = {10.1016/j.media.2016.07.004},
    PDF = {https://inria.hal.science/hal-01353697/file/Edito_Ayache.pdf},
    HAL_ID = {hal-01353697},
    HAL_VERSION = {v1},
    
    }
    


  5. Jan L. Bruse, Kristin Mcleod, Giovanni Biglino, Hopewell N. Ntsinjana, Claudio Capelli, Tain-Yen Hsia, Maxime Sermesant, Xavier Pennec, Andrew M. Taylor, and Silvia Schievano. A statistical shape modelling framework to extract 3D shape biomarkers from medical imaging data: assessing arch morphology of repaired coarctation of the aorta. BMC Medical Imaging, 16(1), May 2016.
    @article{bruse:hal-01335147,
    TITLE = {{A statistical shape modelling framework to extract 3D shape biomarkers from medical imaging data: assessing arch morphology of repaired coarctation of the aorta}},
    AUTHOR = {Bruse, Jan L. and Mcleod, Kristin and Biglino, Giovanni and Ntsinjana, Hopewell N. and Capelli, Claudio and Hsia, Tain-Yen and Sermesant, Maxime and Pennec, Xavier and Taylor, Andrew M. and Schievano, Silvia},
    url-hal= {https://inria.hal.science/hal-01335147},
    JOURNAL = {{BMC Medical Imaging}},
    PUBLISHER = {{BioMed Central}},
    VOLUME = {16},
    NUMBER = {1},
    YEAR = {2016},
    MONTH = May,
    DOI = {10.1186/s12880-016-0142-z},
    PDF = {https://inria.hal.science/hal-01335147/file/art3A10_1186_s12880-016-0142.pdf},
    HAL_ID = {hal-01335147},
    HAL_VERSION = {v1},
    
    }
    


  6. Jan Bruse, Hopewell Ntsinjana, Claudio Capelli, Giovanni Biglino, Kristin Mcleod, Maxime Sermesant, Xavier Pennec, Tain-Yen Hsia, Silvia Schievano, and Andrew Taylor. CMR-based 3D statistical shape modelling reveals left ventricular morphological differences between healthy controls and arterial switch operation survivors. Journal of Cardiovascular Magnetic Resonance, 18(S1), December 2016.
    @article{bruse:hal-03063907,
    TITLE = {{CMR-based 3D statistical shape modelling reveals left ventricular morphological differences between healthy controls and arterial switch operation survivors}},
    AUTHOR = {Bruse, Jan and Ntsinjana, Hopewell and Capelli, Claudio and Biglino, Giovanni and Mcleod, Kristin and Sermesant, Maxime and Pennec, Xavier and Hsia, Tain-Yen and Schievano, Silvia and Taylor, Andrew},
    url-hal= {https://inria.hal.science/hal-03063907},
    JOURNAL = {{Journal of Cardiovascular Magnetic Resonance}},
    PUBLISHER = {{BioMed Central}},
    VOLUME = {18},
    NUMBER = {S1},
    YEAR = {2016},
    MONTH = Dec,
    DOI = {10.1186/1532-429X-18-S1-Q2},
    HAL_ID = {hal-03063907},
    HAL_VERSION = {v1},
    
    }
    


  7. Rocìo Cabrera-Lozoya, Benjamin Berte, Hubert Cochet, Pierre Jaïs, Nicholas Ayache, and Maxime Sermesant. Image-based Biophysical Simulation of Intracardiac Abnormal Ventricular Electrograms. IEEE Transactions on Biomedical Engineering, PP(99), 2016. Keyword(s): electroanatomical mapping, intracar-diac electrogram modelling, radiofrequency ablation planning, cardiac electrophysiology modelling.
    @article{cabreralozoya:hal-01313615,
    TITLE = {{Image-based Biophysical Simulation of Intracardiac Abnormal Ventricular Electrograms}},
    AUTHOR = {Cabrera-Lozoya, Roc{\'i}o and Berte, Benjamin and Cochet, Hubert and Ja{\"i}s, Pierre and Ayache, Nicholas and Sermesant, Maxime},
    url-hal= {https://hal.science/hal-01313615},
    JOURNAL = {{IEEE Transactions on Biomedical Engineering}},
    PUBLISHER = {{Institute of Electrical and Electronics Engineers}},
    VOLUME = {PP},
    NUMBER = {99},
    YEAR = {2016},
    DOI = {10.1109/TBME.2016.2562918},
    KEYWORDS = { electroanatomical mapping ; intracar-diac electrogram modelling ; radiofrequency ablation planning ; cardiac electrophysiology modelling},
    PDF = {https://hal.science/hal-01313615/file/HALfile.pdf},
    HAL_ID = {hal-01313615},
    HAL_VERSION = {v1},
    
    }
    


  8. Radomir Chabiniok, Vicky Y. Wang, Myrianthi Hadjicharalambous, Liya Asner, Jack Lee, Maxime Sermesant, Ellen Kuhl, Alistair A. Young, Philippe Moireau, Martyn P. Nash, Dominique Chapelle, and David Nordsletten. Multiphysics and multiscale modelling, data-model fusion and integration of organ physiology in the clinic: ventricular cardiac mechanics. Interface Focus, 6(2), 2016. Keyword(s): translational cardiac modelling, patient-specific modelling, heart mechanics, cardiac mechanics, data-model fusion.
    @article{chabiniok:hal-01277684,
    TITLE = {{Multiphysics and multiscale modelling, data-model fusion and integration of organ physiology in the clinic: ventricular cardiac mechanics}},
    AUTHOR = {Chabiniok, Radomir and Wang, Vicky Y. and Hadjicharalambous, Myrianthi and Asner, Liya and Lee, Jack and Sermesant, Maxime and Kuhl, Ellen and Young, Alistair A. and Moireau, Philippe and Nash, Martyn P. and Chapelle, Dominique and Nordsletten, David},
    url-hal= {https://inria.hal.science/hal-01277684},
    JOURNAL = {{Interface Focus}},
    PUBLISHER = {{Royal Society publishing}},
    VOLUME = {6},
    NUMBER = {2},
    YEAR = {2016},
    DOI = {10.1098/rsfs.2015.0083},
    KEYWORDS = {translational cardiac modelling ; patient-specific modelling ; heart mechanics ; cardiac mechanics ; data-model fusion},
    PDF = {https://inria.hal.science/hal-01277684/file/20150083.full.pdf},
    HAL_ID = {hal-01277684},
    HAL_VERSION = {v1},
    
    }
    


  9. Zhong Chen, Rocìo Cabrera-Lozoya, Jatin Relan, Manav Sohal, Anoop Shetty, Rashed Karim, Hervé Delingette, Jaswinder Gill, Kawal Rhode, Nicholas Ayache, Peter Taggart, Christopher Aldo Rinaldi, Maxime Sermesant, and Reza Razavi. Biophysical modelling predicts ventricular tachycardia inducibility and circuit morphology: A combined clinical validation and computer modelling approach. Journal of Cardiovascular Electrophysiology, 27(7):851-860, 2016. Keyword(s): cardiac magnetic resonance imaging, conductivity, APD restitution, computer modelling, Ventricular tachycardia.
    @article{chen:hal-01301426,
    TITLE = {{Biophysical modelling predicts ventricular tachycardia inducibility and circuit morphology: A combined clinical validation and computer modelling approach}},
    AUTHOR = {Chen, Zhong and Cabrera-Lozoya, Roc{\'i}o and Relan, Jatin and Sohal, Manav and Shetty, Anoop and Karim, Rashed and Delingette, Herv{\'e} and Gill, Jaswinder and Rhode, Kawal and Ayache, Nicholas and Taggart, Peter and Rinaldi, Christopher Aldo and Sermesant, Maxime and Razavi, Reza},
    url-hal= {https://hal.science/hal-01301426},
    JOURNAL = {{Journal of Cardiovascular Electrophysiology}},
    PUBLISHER = {{Wiley}},
    VOLUME = {27},
    NUMBER = {7},
    PAGES = {851-860},
    YEAR = {2016},
    DOI = {10.1111/jce.12991},
    KEYWORDS = { cardiac magnetic resonance imaging ; conductivity ; APD restitution ; computer modelling ; Ventricular tachycardia},
    PDF = {https://hal.science/hal-01301426/file/Biophysical%20modelling%20to%20predict%20VT%20Manuscript%20JCE%20Revised%20%2010042016.pdf},
    HAL_ID = {hal-01301426},
    HAL_VERSION = {v1},
    
    }
    


  10. Nicolas Cordier, Hervé Delingette, Matthieu Lê, and Nicholas Ayache. Extended Modality Propagation: Image Synthesis of Pathological Cases. IEEE Transactions on Medical Imaging, PP(99), July 2016. Keyword(s): patch-based, multi-atlas, glioma, generative model, medical image simulation, modality synthesis.
    @article{cordier:hal-01343233,
    TITLE = {{Extended Modality Propagation: Image Synthesis of Pathological Cases}},
    AUTHOR = {Cordier, Nicolas and Delingette, Herv{\'e} and L{\^e}, Matthieu and Ayache, Nicholas},
    url-hal= {https://inria.hal.science/hal-01343233},
    JOURNAL = {{IEEE Transactions on Medical Imaging}},
    PUBLISHER = {{Institute of Electrical and Electronics Engineers}},
    VOLUME = {PP},
    NUMBER = {99},
    YEAR = {2016},
    MONTH = Jul,
    DOI = {10.1109/TMI.2016.2589760},
    KEYWORDS = {patch-based ; multi-atlas ; glioma ; generative model ; medical image simulation ; modality synthesis},
    PDF = {https://inria.hal.science/hal-01343233/file/Cordier-TMI-2016-preprint.pdf},
    HAL_ID = {hal-01343233},
    HAL_VERSION = {v1},
    
    }
    


  11. Nicolas Duchateau, Mathieu de Craene, Pascal Allain, Eric Saloux, and Maxime Sermesant. Infarct localization from myocardial deformation: Prediction and uncertainty quantification by regression from a low-dimensional space. IEEE Transactions on Medical Imaging, 35(10):2340-2352, 2016. Keyword(s): biomechanical modeling, delayed-enhancement, pattern recognition & classification, Index Terms-Myocardial infarct, dimensionality reduction, computer-aided diagnosis, ultrasound.
    @article{duchateau:hal-01314767,
    TITLE = {{Infarct localization from myocardial deformation: Prediction and uncertainty quantification by regression from a low-dimensional space}},
    AUTHOR = {Duchateau, Nicolas and de Craene, Mathieu and Allain, Pascal and Saloux, Eric and Sermesant, Maxime},
    url-hal= {https://inria.hal.science/hal-01314767},
    JOURNAL = {{IEEE Transactions on Medical Imaging}},
    PUBLISHER = {{Institute of Electrical and Electronics Engineers}},
    VOLUME = {35},
    NUMBER = {10},
    PAGES = {2340-2352},
    YEAR = {2016},
    DOI = {10.1109/TMI.2016.2562181},
    KEYWORDS = {biomechanical modeling ; delayed-enhancement ; pattern recognition \& classification ; Index Terms-Myocardial infarct ; dimensionality reduction ; computer-aided diagnosis ; ultrasound},
    PDF = {https://inria.hal.science/hal-01314767/file/jDuchateau_TMI_2016_FINALok1.pdf},
    HAL_ID = {hal-01314767},
    HAL_VERSION = {v1},
    
    }
    


  12. Dan Gnansia, Thomas Demarcy, Clair Vandersteen, Charles Raffaelli, Nicolas Guevara, Hervé Delingette, and Nicholas Ayache. Optimal electrode diameter in relation to volume of the cochlea. European Annals of Otorhinolaryngology, Head and Neck Diseases, 133, Supplement 1:S66-S67, June 2016. Keyword(s): Cochlear implant, Electrode-array, Hearing preservation, Soft surgery, Electrode-array design, Image processing, Computed tomography, Inner ear, Anatomy.
    @article{gnansia:hal-01326507,
    TITLE = {{Optimal electrode diameter in relation to volume of the cochlea}},
    AUTHOR = {Gnansia, Dan and Demarcy, Thomas and Vandersteen, Clair and Raffaelli, Charles and Guevara, Nicolas and Delingette, Herv{\'e} and Ayache, Nicholas},
    url-hal= {https://inria.hal.science/hal-01326507},
    JOURNAL = {{European Annals of Otorhinolaryngology, Head and Neck Diseases}},
    PUBLISHER = {{Elsevier Masson}},
    VOLUME = {133, Supplement 1},
    PAGES = {S66-S67},
    YEAR = {2016},
    MONTH = Jun,
    DOI = {10.1016/j.anorl.2016.04.013},
    KEYWORDS = {Cochlear implant ; Electrode-array ; Hearing preservation ; Soft surgery ; Electrode-array design ; Image processing ; Computed tomography ; Inner ear ; Anatomy},
    PDF = {https://inria.hal.science/hal-01326507/file/ANORL.pdf},
    HAL_ID = {hal-01326507},
    HAL_VERSION = {v1},
    
    }
    


  13. Pietro Gori, Olivier Colliot, Linda Marrakchi-Kacem, Yulia Worbe, Fabrizio de Vico Fallani, Mario Chavez, Cyril Poupon, Andreas Hartmann, Nicholas Ayache, and Stanley Durrleman. Parsimonious Approximation of Streamline Trajectories in White Matter Fiber Bundles. IEEE Transactions on Medical Imaging, PP(99), 2016. Keyword(s): Index Terms-Diffusion weighted imaging, Brain, Connectivity analysis, Dimensionality reduction, Registration, Tractography, Visualization.
    @article{gori:hal-01346067,
    TITLE = {{Parsimonious Approximation of Streamline Trajectories in White Matter Fiber Bundles}},
    AUTHOR = {Gori, Pietro and Colliot, Olivier and Marrakchi-Kacem, Linda and Worbe, Yulia and de Vico Fallani, Fabrizio and Chavez, Mario and Poupon, Cyril and Hartmann, Andreas and Ayache, Nicholas and Durrleman, Stanley},
    url-hal= {https://hal.science/hal-01346067},
    JOURNAL = {{IEEE Transactions on Medical Imaging}},
    PUBLISHER = {{Institute of Electrical and Electronics Engineers}},
    VOLUME = {PP},
    NUMBER = {99},
    YEAR = {2016},
    DOI = {10.1109/TMI.2016.2591080},
    KEYWORDS = {Index Terms-Diffusion weighted imaging ; Brain ; Connectivity analysis ; Dimensionality reduction ; Registration ; Tractography ; Visualization},
    PDF = {https://hal.science/hal-01346067/file/Prototype_Paper_Final_PrePrint.pdf},
    HAL_ID = {hal-01346067},
    HAL_VERSION = {v1},
    
    }
    


  14. Mehdi Hadj-Hamou, Marco Lorenzi, Nicholas Ayache, and Xavier Pennec. Longitudinal Analysis of Image Time Series with Diffeomorphic Deformations: A Computational Framework Based on Stationary Velocity Fields. Frontiers in Neuroscience, 10(236):18, June 2016. Keyword(s): non-linear registration, deformation-based morphometry, longitudinal study, diffeomorphism parametrized by stationary velocity fields, statistical analysis, reproducible research.
    @article{hadjhamou:hal-01329989,
    TITLE = {{Longitudinal Analysis of Image Time Series with Diffeomorphic Deformations: A Computational Framework Based on Stationary Velocity Fields}},
    AUTHOR = {Hadj-Hamou, Mehdi and Lorenzi, Marco and Ayache, Nicholas and Pennec, Xavier},
    url-hal= {https://inria.hal.science/hal-01329989},
    JOURNAL = {{Frontiers in Neuroscience}},
    PUBLISHER = {{Frontiers}},
    VOLUME = {10},
    NUMBER = {236},
    PAGES = {18},
    YEAR = {2016},
    MONTH = Jun,
    DOI = {10.3389/fnins.2016.00236},
    KEYWORDS = {non-linear registration ; deformation-based morphometry ; longitudinal study ; diffeomorphism parametrized by stationary velocity fields ; statistical analysis ; reproducible research},
    PDF = {https://inria.hal.science/hal-01329989/file/fnins-10-00236.pdf},
    HAL_ID = {hal-01329989},
    HAL_VERSION = {v1},
    
    }
    


  15. Bishesh Khanal, Marco Lorenzi, Nicholas Ayache, and Xavier Pennec. A biophysical model of brain deformation to simulate and analyze longitudinal MRIs of patients with Alzheimer's disease. NeuroImage, 134:35-52, July 2016. Keyword(s): longitudinal modeling, simulation of atrophy, longitudinal MRIs simulation, biophysical model, Alzheimer's disease.
    @article{khanal:hal-01305755,
    TITLE = {{A biophysical model of brain deformation to simulate and analyze longitudinal MRIs of patients with Alzheimer's disease}},
    AUTHOR = {Khanal, Bishesh and Lorenzi, Marco and Ayache, Nicholas and Pennec, Xavier},
    url-hal= {https://inria.hal.science/hal-01305755},
    JOURNAL = {{NeuroImage}},
    PUBLISHER = {{Elsevier}},
    VOLUME = {134},
    PAGES = {35-52},
    YEAR = {2016},
    MONTH = Jul,
    DOI = {10.1016/j.neuroimage.2016.03.061},
    KEYWORDS = {longitudinal modeling ; simulation of atrophy ; longitudinal MRIs simulation ; biophysical model ; Alzheimer's disease},
    PDF = {https://inria.hal.science/hal-01305755/file/Khanal_2016_NeuroImage_acceptedVersionPreprint.pdf},
    HAL_ID = {hal-01305755},
    HAL_VERSION = {v1},
    
    }
    


  16. Loïc Le Folgoc, Hervé Delingette, Antonio Criminisi, and Nicholas Ayache. Quantifying Registration Uncertainty with Sparse Bayesian Modelling. IEEE Transactions on Medical Imaging, PP(99), December 2016. Keyword(s): MCMC, Uncertainty Quantification, Registration, Sparse Bayesian Learning, Reversible Jump, Automatic Relevance Determination.
    @article{lefolgoc:hal-01378844,
    TITLE = {{Quantifying Registration Uncertainty with Sparse Bayesian Modelling}},
    AUTHOR = {Le Folgoc, Lo{\"i}c and Delingette, Herv{\'e} and Criminisi, Antonio and Ayache, Nicholas},
    url-hal= {https://inria.hal.science/hal-01378844},
    JOURNAL = {{IEEE Transactions on Medical Imaging}},
    PUBLISHER = {{Institute of Electrical and Electronics Engineers}},
    VOLUME = {PP},
    NUMBER = {99},
    YEAR = {2016},
    MONTH = Dec,
    DOI = {10.1109/TMI.2016.2623608},
    KEYWORDS = {MCMC ; Uncertainty Quantification ; Registration ; Sparse Bayesian Learning ; Reversible Jump ; Automatic Relevance Determination},
    PDF = {https://inria.hal.science/hal-01378844/file/lefolgoc2016quantifying-HAL-manuscript.pdf},
    HAL_ID = {hal-01378844},
    HAL_VERSION = {v1},
    
    }
    


  17. Matthieu Lê, Hervé Delingette, Jayashree Kalpathy-Cramer, Elizabeth R Gerstner, Tracy Batchelor, Jan Unkelbach, and Nicholas Ayache. MRI Based Bayesian Personalization of a Tumor Growth Model. IEEE Transactions on Medical Imaging, 35(10):2329-2339, April 2016. Keyword(s): bayesian, personalization, Index Terms-tumor growth, glioblastoma, reaction-diffusion, LBM, Monte Carlo.
    @article{le:hal-01324849,
    TITLE = {{MRI Based Bayesian Personalization of a Tumor Growth Model}},
    AUTHOR = {L{\^e}, Matthieu and Delingette, Herv{\'e} and Kalpathy-Cramer, Jayashree and Gerstner, Elizabeth R and Batchelor, Tracy and Unkelbach, Jan and Ayache, Nicholas},
    url-hal= {https://inria.hal.science/hal-01324849},
    JOURNAL = {{IEEE Transactions on Medical Imaging}},
    PUBLISHER = {{Institute of Electrical and Electronics Engineers}},
    VOLUME = {35},
    NUMBER = {10},
    PAGES = {2329-2339},
    YEAR = {2016},
    MONTH = Apr,
    DOI = {10.1109/TMI.2016.2561098},
    KEYWORDS = {bayesian ; personalization ; Index Terms-tumor growth ; glioblastoma ; reaction-diffusion ; LBM ; Monte Carlo},
    PDF = {https://inria.hal.science/hal-01324849/file/preprint.pdf},
    HAL_ID = {hal-01324849},
    HAL_VERSION = {v1},
    
    }
    


  18. Matthieu Lê, Hervé Delingette, Jayashree Kalpathy-Cramer, Elizabeth R Gerstner, Tracy Batchelor, Jan Unkelbach, and Nicholas Ayache. Personalized Radiotherapy Planning Based on a Computational Tumor Growth Model. IEEE Transactions on Medical Imaging, pp 11, 2016. Keyword(s): Index Terms-Radiotherapy planning, computational tu-, mor growth model, personalization, uncertainty, segmentation, glioblastoma.
    @article{le:hal-01403847,
    TITLE = {{Personalized Radiotherapy Planning Based on a Computational Tumor Growth Model}},
    AUTHOR = {L{\^e}, Matthieu and Delingette, Herv{\'e} and Kalpathy-Cramer, Jayashree and Gerstner, Elizabeth R and Batchelor, Tracy and Unkelbach, Jan and Ayache, Nicholas},
    url-hal= {https://inria.hal.science/hal-01403847},
    JOURNAL = {{IEEE Transactions on Medical Imaging}},
    PUBLISHER = {{Institute of Electrical and Electronics Engineers}},
    PAGES = {11},
    YEAR = {2016},
    DOI = {10.1109/TMI.2016.2626443},
    KEYWORDS = {Index Terms-Radiotherapy planning ; computational tu- ; mor growth model ; personalization ; uncertainty ; segmentation ; glioblastoma},
    PDF = {https://inria.hal.science/hal-01403847/file/FINAL%20VERSION.pdf},
    HAL_ID = {hal-01403847},
    HAL_VERSION = {v1},
    
    }
    


  19. Matthieu Lê, Jan Unkelbach, Nicholas Ayache, and Hervé Delingette. Sampling Image Segmentations for Uncertainty Quantification. Medical Image Analysis, 34:42-51, December 2016. Note: Accepted for publication to the journal Elsevier Medical Image Analysis. Keyword(s): Gaussian process, brain tumor, uncertainty, radiotherapy planning, Segmentation.
    @article{le:hal-01304646,
    TITLE = {{Sampling Image Segmentations for Uncertainty Quantification}},
    AUTHOR = {L{\^e}, Matthieu and Unkelbach, Jan and Ayache, Nicholas and Delingette, Herv{\'e}},
    url-hal= {https://hal.science/hal-01304646},
    NOTE = {Accepted for publication to the journal Elsevier Medical Image Analysis},
    JOURNAL = {{Medical Image Analysis}},
    PUBLISHER = {{Elsevier}},
    VOLUME = {34},
    PAGES = {42-51},
    YEAR = {2016},
    MONTH = Dec,
    DOI = {10.1016/j.media.2016.04.005},
    KEYWORDS = {Gaussian process ; brain tumor ; uncertainty ; radiotherapy planning ; Segmentation},
    PDF = {https://hal.science/hal-01304646/file/mle_preprint.pdf},
    HAL_ID = {hal-01304646},
    HAL_VERSION = {v1},
    
    }
    


  20. Nerea Mangado, Mario Ceresa, Nicolas Duchateau, Hans Martin Kjer, Sergio Vera, Hector Dejea Velardo, Pavel Mistrik, Rasmus R. Paulsen, Jens Fagertun, Jérôme Noailly, Gemma Piella, and Miguel Ángel González Ballester. Automatic model generation framework for computational simulation of cochlear implantation. Annals of Biomedical Engineering, 44(8):2453-2463, 2016.
    @article{mangado:hal-01314765,
    TITLE = {{Automatic model generation framework for computational simulation of cochlear implantation}},
    AUTHOR = {Mangado, Nerea and Ceresa, Mario and Duchateau, Nicolas and Kjer, Hans Martin and Vera, Sergio and Dejea Velardo, Hector and Mistrik, Pavel and Paulsen, Rasmus R. and Fagertun, Jens and Noailly, J{\'e}r{\^o}me and Piella, Gemma and {\'A}ngel Gonz{\'a}lez Ballester, Miguel},
    url-hal= {https://inria.hal.science/hal-01314765},
    JOURNAL = {{Annals of Biomedical Engineering}},
    PUBLISHER = {{Springer Verlag}},
    VOLUME = {44},
    NUMBER = {8},
    PAGES = {2453-2463},
    YEAR = {2016},
    DOI = {10.1007/s10439-015-1541-y},
    PDF = {https://inria.hal.science/hal-01314765/file/jMangado_ABE_2016_FINALok.pdf},
    HAL_ID = {hal-01314765},
    HAL_VERSION = {v1},
    
    }
    


  21. Hugo Talbot, Federico Spadoni, Christian Duriez, Maxime Sermesant, Stéphane Cotin, and Hervé Delingette. Interactive Training System for Interventional Electrocardiology Procedures. Medical Image Analysis, 8789:11-19, 2016. Keyword(s): Endovascular Navigation, Training Simulator, Interactive Simulation, Real-Time Electrophysiology.
    @article{talbot:hal-01338346,
    TITLE = {{Interactive Training System for Interventional Electrocardiology Procedures}},
    AUTHOR = {Talbot, Hugo and Spadoni, Federico and Duriez, Christian and Sermesant, Maxime and Cotin, St{\'e}phane and Delingette, Herv{\'e}},
    url-hal= {https://inria.hal.science/hal-01338346},
    JOURNAL = {{Medical Image Analysis}},
    PUBLISHER = {{Elsevier}},
    VOLUME = {8789},
    PAGES = {11-19},
    YEAR = {2016},
    DOI = {10.1007/978-3-319-12057-7\_2},
    KEYWORDS = {Endovascular Navigation ; Training Simulator ; Interactive Simulation ; Real-Time Electrophysiology},
    PDF = {https://inria.hal.science/hal-01338346/file/Talbot_H.pdf},
    HAL_ID = {hal-01338346},
    HAL_VERSION = {v1},
    
    }
    


  22. Anant S. Vemuri, Stéphane Nicolau, Adrien Sportes, Jacques Marescaux, Luc Soler, and Nicholas Ayache. Inter-Operative Biopsy Site Relocalization in Endoluminal Surgery. IEEE Transactions on Biomedical Engineering, 63(9):1862-1873, September 2016. Keyword(s): video synchronization, Computer assisted intervention, gastro-intestinal (GI) endoscopy, biopsy relocalization, Barrett's Oesophagus, electromagnetic tracking.
    @article{vemuri:hal-01230752,
    TITLE = {{Inter-Operative Biopsy Site Relocalization in Endoluminal Surgery}},
    AUTHOR = {Vemuri, Anant S. and Nicolau, St{\'e}phane and Sportes, Adrien and Marescaux, Jacques and Soler, Luc and Ayache, Nicholas},
    url-hal= {https://inria.hal.science/hal-01230752},
    JOURNAL = {{IEEE Transactions on Biomedical Engineering}},
    PUBLISHER = {{Institute of Electrical and Electronics Engineers}},
    VOLUME = {63},
    NUMBER = {9},
    PAGES = {1862-1873},
    YEAR = {2016},
    MONTH = Sep,
    DOI = {10.1109/TBME.2015.2503981},
    KEYWORDS = {video synchronization ; Computer assisted intervention ; gastro-intestinal (GI) endoscopy ; biopsy relocalization ; Barrett's Oesophagus ; electromagnetic tracking},
    PDF = {https://inria.hal.science/hal-01230752/file/TBEDraft_postCorrections_compressed.pdf},
    HAL_ID = {hal-01230752},
    HAL_VERSION = {v1},
    
    }
    


  23. Antoine Verger, Yalcin Yagdigul, Axel van Der Gucht, Sylvain Poussier, Eric Guedj, Louis Maillard, Grégoire Malandain, Gabriela Hossu, Renaud Fay, Gilles Karcher, and Pierre-Yves Marie. Temporal epilepsy lesions may be detected by the voxel-based quantitative analysis of brain FDG-PET images using an original block-matching normalization software. Annals of Nuclear Medicine, 30(4):272-278, May 2016. Keyword(s): Block-matching algorithm, FDG-PET, Mesial temporal lobe epilepsy, Spatial normalization, Statistical parametric mapping.
    @article{verger:hal-01419250,
    TITLE = {{Temporal epilepsy lesions may be detected by the voxel-based quantitative analysis of brain FDG-PET images using an original block-matching normalization software}},
    AUTHOR = {Verger, Antoine and Yagdigul, Yalcin and Gucht, Axel van Der and Poussier, Sylvain and Guedj, Eric and Maillard, Louis and Malandain, Gr{\'e}goire and Hossu, Gabriela and Fay, Renaud and Karcher, Gilles and Marie, Pierre-Yves},
    url-hal= {https://hal.science/hal-01419250},
    JOURNAL = {{Annals of Nuclear Medicine}},
    HAL_LOCAL_REFERENCE = {SBS},
    PUBLISHER = {{Springer Verlag}},
    VOLUME = {30},
    NUMBER = {4},
    PAGES = {272--278},
    YEAR = {2016},
    MONTH = May,
    DOI = {10.1007/s12149-016-1060-4},
    KEYWORDS = {Block-matching algorithm ; FDG-PET ; Mesial temporal lobe epilepsy ; Spatial normalization ; Statistical parametric mapping},
    HAL_ID = {hal-01419250},
    HAL_VERSION = {v1},
    
    }
    


  24. Seigo Yamashita, Hubert Cochet, Frédéric Sacher, Saagar Mahida, Benjamin Berte, Darren Hooks, Jean-Marc Sellal, Nora Al Jefairi, Antonio Frontera, Yuki Komatsu, Han S Lim, Sana Amraoui, Arnaud Denis, Nicolas Derval, Maxime Sermesant, François Laurent, Mélèze Hocini, Michel Haïssaguerre, Michel Montaudon, and Pierre Jais. Impact of New Technologies and Approaches for Post--Myocardial Infarction Ventricular Tachycardia Ablation During Long-Term Follow-Up. Circulation. Arrhythmia and electrophysiology, 9(7), July 2016. Keyword(s): Myocardial infarction, Infarction, Heart failure, Catheter ablation, Ventricular tachycardia.
    @article{yamashita:hal-01353372,
    TITLE = {{Impact of New Technologies and Approaches for Post--Myocardial Infarction Ventricular Tachycardia Ablation During Long-Term Follow-Up}},
    AUTHOR = {Yamashita, Seigo and Cochet, Hubert and Sacher, Fr{\'e}d{\'e}ric and Mahida, Saagar and Berte, Benjamin and Hooks, Darren and Sellal, Jean-Marc and Al Jefairi, Nora and Frontera, Antonio and Komatsu, Yuki and Lim, Han S and Amraoui, Sana and Denis, Arnaud and Derval, Nicolas and Sermesant, Maxime and Laurent, Fran{\c c}ois and Hocini, M{\'e}l{\`e}ze and Ha{\"i}ssaguerre, Michel and Montaudon, Michel and Jais, Pierre},
    url-hal= {https://inria.hal.science/hal-01353372},
    JOURNAL = {{Circulation. Arrhythmia and electrophysiology}},
    PUBLISHER = {{Lippincott Williams \& Wilkins}},
    VOLUME = {9},
    NUMBER = {7},
    YEAR = {2016},
    MONTH = Jul,
    DOI = {10.1161/CIRCEP.116.003901},
    KEYWORDS = {Myocardial infarction ; Infarction ; Heart failure ; Catheter ablation ; Ventricular tachycardia},
    PDF = {https://inria.hal.science/hal-01353372/file/CIRCEP.116.003901.pdf},
    HAL_ID = {hal-01353372},
    HAL_VERSION = {v1},
    
    }
    


  25. Seigo Yamashita, Frédéric Sacher, Saagar Mahida, Benjamin Berte, Han S Lim, Yuki Komatsu, Sana Amraoui, Arnaud Denis, Nicolas Derval, François Laurent, Maxime Sermesant, Michel Montaudon, Mélèze Hocini, Michel Haïssaguerre, Pierre Jais, and Hubert Cochet. Image Integration to Guide Catheter Ablation in Scar-Related Ventricular Tachycardia. Journal of Cardiovascular Electrophysiology, 27(6):699 - 708, June 2016. Keyword(s): Scar-related ventricular tachycardia, Ablation, CMR, MDCT, Imaging.
    @article{yamashita:hal-01936715,
    TITLE = {{Image Integration to Guide Catheter Ablation in Scar-Related Ventricular Tachycardia}},
    AUTHOR = {Yamashita, Seigo and Sacher, Fr{\'e}d{\'e}ric and Mahida, Saagar and Berte, Benjamin and Lim, Han S and Komatsu, Yuki and Amraoui, Sana and Denis, Arnaud and Derval, Nicolas and Laurent, Fran{\c c}ois and Sermesant, Maxime and Montaudon, Michel and Hocini, M{\'e}l{\`e}ze and Ha{\"i}ssaguerre, Michel and Jais, Pierre and Cochet, Hubert},
    url-hal= {https://inria.hal.science/hal-01936715},
    JOURNAL = {{Journal of Cardiovascular Electrophysiology}},
    PUBLISHER = {{Wiley}},
    VOLUME = {27},
    NUMBER = {6},
    PAGES = {699 - 708},
    YEAR = {2016},
    MONTH = Jun,
    DOI = {10.1111/jce.12963},
    KEYWORDS = {Scar-related ventricular tachycardia ; Ablation ; CMR ; MDCT ; Imaging},
    PDF = {https://inria.hal.science/hal-01936715/file/YAMASHITA_et_al-2016-Journal_of_Cardiovascular_Electrophysiology.pdf},
    HAL_ID = {hal-01936715},
    HAL_VERSION = {v1},
    
    }
    


  26. Nicolas Duchateau, Gemma Piella, Alejandro Frangi, and Mathieu de Craene. Learning pathological deviations from a normal pattern of myocardial motion: Added value for CRT studies?. In Guorong Wu, Dinggang Shen, and Mert Sabuncu, editors, Machine learning and medical imaging, 1st Edition, pages 365-382. Elsevier, 2016.
    @incollection{duchateau:hal-01352464,
    TITLE = {{Learning pathological deviations from a normal pattern of myocardial motion: Added value for CRT studies?}},
    AUTHOR = {Duchateau, Nicolas and Piella, Gemma and Frangi, Alejandro and de Craene, Mathieu},
    url-hal= {https://inria.hal.science/hal-01352464},
    BOOKTITLE = {{Machine learning and medical imaging, 1st Edition}},
    EDITOR = {Guorong Wu and Dinggang Shen and Mert Sabuncu},
    PUBLISHER = {{Elsevier}},
    PAGES = {365-382},
    YEAR = {2016},
    PDF = {https://inria.hal.science/hal-01352464/file/bDuchateau_BookChapter_2016%C2%AD.pdf},
    HAL_ID = {hal-01352464},
    HAL_VERSION = {v1},
    
    }
    


Conference articles

  1. Jan L. Bruse, Kristin Mcleod, Elena Cervi, Giovanni Biglino, T.-y Hsia, Maxime Sermesant, Xavier Pennec, Andrew Taylor, and Silvia Schievano. Discovering clusters in pathologic cardiac morphology: MR-based hierarchical 3D shape clustering of surgically repaired aortic arches. In Computer Assisted Radiology, 30th International Congress and Exhibition, Heidelberg, Germany, June 2016.
    @inproceedings{bruse:hal-01519862,
    TITLE = {{Discovering clusters in pathologic cardiac morphology: MR-based hierarchical 3D shape clustering of surgically repaired aortic arches}},
    AUTHOR = {Bruse, Jan L. and Mcleod, Kristin and Cervi, Elena and Biglino, Giovanni and Hsia, T.-y and Sermesant, Maxime and Pennec, Xavier and Taylor, Andrew and Schievano, Silvia},
    url-hal= {https://inria.hal.science/hal-01519862},
    BOOKTITLE = {{Computer Assisted Radiology, 30th International Congress and Exhibition}},
    ADDRESS = {Heidelberg, Germany},
    YEAR = {2016},
    MONTH = Jun,
    HAL_ID = {hal-01519862},
    HAL_VERSION = {v1},
    
    }
    


  2. Claire Cury, Marc M Lorenzi, David M Cash, Jennifer M Nicholas, Alexandre M Routier, Jonathan Rohrer, Sebastien M Ourselin, Stanley M Durrleman, and Marc M Modat. Spatio-Temporal Shape Analysis of Cross-Sectional Data for Detection of Early Changes in Neurodegenerative Disease. In Martin Reuter, Christian Wachinger, and Hervé Lombaert, editors, SeSAMI 2016 - First International Workshop Spectral and Shape Analysis in Medical Imaging, volume 10126 of Spectral and Shape Analysis in Medical Imaging, Athens, Greece, pages 63 - 75, September 2016. Springer. Keyword(s): thalamus, spatio-temporal geodesic regression, FTD, parallel transport, shape.
    @inproceedings{cury:hal-01440061,
    TITLE = {{Spatio-Temporal Shape Analysis of Cross-Sectional Data for Detection of Early Changes in Neurodegenerative Disease}},
    AUTHOR = {Cury, Claire and Lorenzi, Marc M and Cash, David M and Nicholas, Jennifer M and Routier, Alexandre M and Rohrer, Jonathan and Ourselin, Sebastien M and Durrleman, Stanley M and Modat, Marc M},
    url-hal= {https://inria.hal.science/hal-01440061},
    BOOKTITLE = {{SeSAMI 2016 - First International Workshop Spectral and Shape Analysis in Medical Imaging}},
    ADDRESS = {Athens, Greece},
    EDITOR = {Reuter, Martin and Wachinger, Christian and Lombaert, Herv{\'e}},
    PUBLISHER = {{Springer}},
    SERIES = {Spectral and Shape Analysis in Medical Imaging},
    VOLUME = {10126},
    PAGES = {63 - 75},
    YEAR = {2016},
    MONTH = Sep,
    DOI = {10.1007/978-3-319-51237-2\_6},
    KEYWORDS = {thalamus ; spatio-temporal geodesic regression ; FTD ; parallel transport ; shape},
    PDF = {https://inria.hal.science/hal-01440061/file/Cury_SSAMI_16.pdf},
    HAL_ID = {hal-01440061},
    HAL_VERSION = {v1},
    
    }
    


  3. Thomas Demarcy, Clair Vandersteen, Dan Gnansia, Charles Raffaelli, Hervé Delingette, Nicholas Ayache, and Nicolas Guevara. Estimation de la position post-implantation cochléaire de l'électrode à partir d'images tomodensitométriques cliniques. In 123ème Congrès de la Société Française d'Oto-Rhino-Laryngologie et de Chirurgie de la Face et du Cou, Annales françaises d'Oto-rhino-laryngologie et de Pathologie Cervico-faciale, Paris, France, October 2016. Congrès de la Société Française d'Oto-Rhino-Laryngologie et de Chirurgie de la Face et du Cou. Keyword(s): Cochlear Implant, Computed Tomography.
    @inproceedings{demarcy:hal-01398676,
    TITLE = {{Estimation de la position post-implantation cochl{\'e}aire de l'{\'e}lectrode {\`a} partir d'images tomodensitom{\'e}triques cliniques}},
    AUTHOR = {Demarcy, Thomas and Vandersteen, Clair and Gnansia, Dan and Raffaelli, Charles and Delingette, Herv{\'e} and Ayache, Nicholas and Guevara, Nicolas},
    url-hal= {https://inria.hal.science/hal-01398676},
    BOOKTITLE = {{123{\`e}me Congr{\`e}s de la Soci{\'e}t{\'e} Fran{\c c}aise d'Oto-Rhino-Laryngologie et de Chirurgie de la Face et du Cou}},
    ADDRESS = {Paris, France},
    ORGANIZATION = {{Congr{\`e}s de la Soci{\'e}t{\'e} Fran{\c c}aise d'Oto-Rhino-Laryngologie et de Chirurgie de la Face et du Cou}},
    SERIES = {Annales fran{\c c}aises d'Oto-rhino-laryngologie et de Pathologie Cervico-faciale},
    YEAR = {2016},
    MONTH = Oct,
    KEYWORDS = {Cochlear Implant ; Computed Tomography},
    HAL_ID = {hal-01398676},
    HAL_VERSION = {v1},
    
    }
    


  4. Thomas Demarcy, Clair Vandersteen, Charles Raffaelli, Dan Gnansia, Nicolas Guevara, Nicholas Ayache, and Hervé Delingette. Uncertainty Quantification of Cochlear Implant Insertion from CT Images. In Raj Shekhar, Stefan Wesarg, Miguel Angel Gonzalez Ballester, Klaus Drechsler, Yoshinobu Sato, Marius Erdt, Marius George Linguraru, and Cristina Oyarzun Laura, editors, 5th International Workshop on Clinical Image-Based Procedures - CLIP 2016, Held in Conjunction with MICCAI 2016, volume 9958 of Lecture Notes in Computer Science, Athens, Greece, pages 27-35, October 2016. Springer. Keyword(s): cochlear implant, uncertainty quantification, shape modeling.
    @inproceedings{demarcy:hal-01393323,
    TITLE = {{Uncertainty Quantification of Cochlear Implant Insertion from CT Images}},
    AUTHOR = {Demarcy, Thomas and Vandersteen, Clair and Raffaelli, Charles and Gnansia, Dan and Guevara, Nicolas and Ayache, Nicholas and Delingette, Herv{\'e}},
    url-hal= {https://inria.hal.science/hal-01393323},
    BOOKTITLE = {{5th International Workshop on Clinical Image-Based Procedures - CLIP 2016, Held in Conjunction with MICCAI 2016}},
    ADDRESS = {Athens, Greece},
    EDITOR = {Raj Shekhar and Stefan Wesarg and Miguel Angel Gonzalez Ballester and Klaus Drechsler and Yoshinobu Sato and Marius Erdt and Marius George Linguraru and Cristina Oyarzun Laura},
    PUBLISHER = {{Springer}},
    SERIES = {Lecture Notes in Computer Science},
    VOLUME = {9958},
    PAGES = {27-35},
    YEAR = {2016},
    MONTH = Oct,
    DOI = {10.1007/978-3-319-46472-5\_4},
    KEYWORDS = {cochlear implant ; uncertainty quantification ; shape modeling},
    PDF = {https://inria.hal.science/hal-01393323/file/demarcymiccai.pdf},
    HAL_ID = {hal-01393323},
    HAL_VERSION = {v1},
    
    }
    


  5. Nicolas Duchateau, Mathieu de Craene, Pascal Allain, Eric Saloux, and Maxime Sermesant. Infarct localization from myocardial deformation: Prediction and uncertainty quantification by regression from a low-dimensional space. In GRIC - Journées Francophones de Radiologie, Paris, France, 2016.
    @inproceedings{duchateau:hal-02161688,
    TITLE = {{Infarct localization from myocardial deformation: Prediction and uncertainty quantification by regression from a low-dimensional space}},
    AUTHOR = {Duchateau, Nicolas and de Craene, Mathieu and Allain, Pascal and Saloux, Eric and Sermesant, Maxime},
    url-hal= {https://hal.science/hal-02161688},
    BOOKTITLE = {{GRIC - Journ{\'e}es Francophones de Radiologie}},
    ADDRESS = {Paris, France},
    YEAR = {2016},
    HAL_ID = {hal-02161688},
    HAL_VERSION = {v1},
    
    }
    


  6. Sophie Giffard-Roisin, Lauren Fovargue, Jessica Webb, Roch Molléro, Jack Lee, Hervé Delingette, Nicholas Ayache, Reza Razavi, and Maxime Sermesant. Estimation of Purkinje Activation from ECG: an Intermittent Left Bundle Branch Block Study. In 7th International Statistical Atlases and Computational Modeling of the Heart (STACOM) Workshop, Held in Conjunction with MICCAI 2016, Lecture Notes in Computer Science, Athens, Greece, October 2016. Note: In press. Keyword(s): Electrophysiology, Electrophysiological Model, Forward EP Model, Parameter Estimation, Purkinje System.
    @inproceedings{giffardroisin:hal-01372924,
    TITLE = {{Estimation of Purkinje Activation from ECG: an Intermittent Left Bundle Branch Block Study}},
    AUTHOR = {Giffard-Roisin, Sophie and Fovargue, Lauren and Webb, Jessica and Moll{\'e}ro, Roch and Lee, Jack and Delingette, Herv{\'e} and Ayache, Nicholas and Razavi, Reza and Sermesant, Maxime},
    url-hal= {https://inria.hal.science/hal-01372924},
    NOTE = {In press},
    BOOKTITLE = {{7th International Statistical Atlases and Computational Modeling of the Heart (STACOM) Workshop, Held in Conjunction with MICCAI 2016}},
    ADDRESS = {Athens, Greece},
    SERIES = { Lecture Notes in Computer Science},
    YEAR = {2016},
    MONTH = Oct,
    KEYWORDS = {Electrophysiology ; Electrophysiological Model ; Forward EP Model ; Parameter Estimation ; Purkinje System},
    PDF = {https://inria.hal.science/hal-01372924/file/Stacom_sophie_ECG.pdf},
    HAL_ID = {hal-01372924},
    HAL_VERSION = {v1},
    
    }
    


  7. Shuman Jia, Loïc Cadour, Hubert Cochet, and Maxime Sermesant. STACOM-SLAWT Challenge: Left Atrial Wall Segmentation and Thickness Measurement Using Region Growing and Marker-Controlled Geodesic Active Contour. In 7th International Statistical Atlases and Computational Modeling of the Heart (STACOM) Workshop, Held in Conjunction with MICCAI 2016, volume 10124 of LNCS, Athens, Greece, pages 211-219, October 2016. Springer. Keyword(s): geodesic active contour, atrial fibrillation, left atrial wall thickness, 3-dimensional image segmentation, cardiac computed tomography (CT), region growing.
    @inproceedings{jia:hal-01373238,
    TITLE = {{STACOM-SLAWT Challenge: Left Atrial Wall Segmentation and Thickness Measurement Using Region Growing and Marker-Controlled Geodesic Active Contour}},
    AUTHOR = {Jia, Shuman and Cadour, Lo{\"i}c and Cochet, Hubert and Sermesant, Maxime},
    url-hal= {https://inria.hal.science/hal-01373238},
    BOOKTITLE = {{7th International Statistical Atlases and Computational Modeling of the Heart (STACOM) Workshop, Held in Conjunction with MICCAI 2016}},
    ADDRESS = {Athens, Greece},
    PUBLISHER = {{Springer}},
    SERIES = {LNCS},
    VOLUME = {10124},
    PAGES = {211-219},
    YEAR = {2016},
    MONTH = Oct,
    KEYWORDS = {geodesic active contour ; atrial fibrillation ; left atrial wall thickness ; 3-dimensional image segmentation ; cardiac computed tomography (CT) ; region growing},
    PDF = {https://inria.hal.science/hal-01373238/file/STACOM2016_021_final_v1.pdf},
    HAL_ID = {hal-01373238},
    HAL_VERSION = {v1},
    
    }
    


  8. Stephanie Marchesseau, Nicolas Duchateau, and Hervé Delingette. Segmentation and registration coupling from short-axis Cine MRI: application to infarct diagnosis. In 7th International Statistical Atlases and Computational Modeling of the Heart (STACOM) Workshop, Held in Conjunction with MICCAI 2016, volume 10124 of Lecture Notes in Computer Science, Athens, Greece, pages 48-56, October 2016. Note: In press. Keyword(s): Regional Volumes, Segmentation, Registration, Infarct diagnosis.
    @inproceedings{marchesseau:hal-01352460,
    TITLE = {{Segmentation and registration coupling from short-axis Cine MRI: application to infarct diagnosis}},
    AUTHOR = {Marchesseau, Stephanie and Duchateau, Nicolas and Delingette, Herv{\'e}},
    url-hal= {https://inria.hal.science/hal-01352460},
    NOTE = {In press},
    BOOKTITLE = {{7th International Statistical Atlases and Computational Modeling of the Heart (STACOM) Workshop, Held in Conjunction with MICCAI 2016}},
    ADDRESS = {Athens, Greece},
    SERIES = { Lecture Notes in Computer Science},
    VOLUME = {10124},
    PAGES = {48-56},
    YEAR = {2016},
    MONTH = Oct,
    KEYWORDS = {Regional Volumes ; Segmentation ; Registration ; Infarct diagnosis},
    PDF = {https://inria.hal.science/hal-01352460/file/cMarchesseau_STACOM_2016.pdf},
    HAL_ID = {hal-01352460},
    HAL_VERSION = {v1},
    
    }
    


  9. Pamela Moceri, Nicolas Duchateau, Delphine Baudouy, Sylvie Leroy, Priscille Bouvier, Elie Dan Schouver, Maxime Sermesant, and Emile Ferrari. Three-dimensional speckle tracking of the right ventricle: implications on survival in pulmonary hypertension. In European Society of Cardiology (ESC) Congress, volume 37 of European Heart Journal, Abstracts from the European Society of Cardiology (ESC) Congress, Rome, Italy, pages 994, August 2016.
    @inproceedings{moceri:hal-01315011,
    TITLE = {{Three-dimensional speckle tracking of the right ventricle: implications on survival in pulmonary hypertension}},
    AUTHOR = {Moceri, Pamela and Duchateau, Nicolas and Baudouy, Delphine and Leroy, Sylvie and Bouvier, Priscille and Dan Schouver, Elie and Sermesant, Maxime and Ferrari, Emile},
    url-hal= {https://inria.hal.science/hal-01315011},
    BOOKTITLE = {{European Society of Cardiology (ESC) Congress}},
    ADDRESS = {Rome, Italy},
    SERIES = {European Heart Journal, Abstracts from the European Society of Cardiology (ESC) Congress},
    VOLUME = {37},
    NUMBER = {S1},
    PAGES = {994},
    YEAR = {2016},
    MONTH = Aug,
    HAL_ID = {hal-01315011},
    HAL_VERSION = {v1},
    
    }
    


  10. Roch Molléro, Xavier Pennec, Hervé Delingette, Nicholas Ayache, and Maxime Sermesant. A Multiscale Cardiac Model for Fast Personalisation and Exploitation. In MICCAI 2016 - Medical Image Computing and Computer Assisted Intervention, volume 9902 of MICCAI 2016, Lecture Notes in Computer Science, Athens, Greece, pages 174-182, October 2016.
    @inproceedings{mollero:hal-01360908,
    TITLE = {{A Multiscale Cardiac Model for Fast Personalisation and Exploitation}},
    AUTHOR = {Moll{\'e}ro, Roch and Pennec, Xavier and Delingette, Herv{\'e} and Ayache, Nicholas and Sermesant, Maxime},
    url-hal= {https://inria.hal.science/hal-01360908},
    BOOKTITLE = {{MICCAI 2016 - Medical Image Computing and Computer Assisted Intervention}},
    ADDRESS = {Athens, Greece},
    SERIES = {MICCAI 2016, Lecture Notes in Computer Science},
    VOLUME = {9902},
    PAGES = {174-182},
    YEAR = {2016},
    MONTH = Oct,
    DOI = {10.1007/978-3-319-46726-9\_21},
    PDF = {https://inria.hal.science/hal-01360908/file/paper_725.pdf},
    HAL_ID = {hal-01360908},
    HAL_VERSION = {v1},
    
    }
    


  11. Marc-Michel Rohé, Roch Molléro, Maxime Sermesant, and Xavier Pennec. Highly Reduced Model of the Cardiac Function for Fast Simulation. In IEEE - IVMSP Workshop 2016, Image, Video, and Multidimensional Signal Processing Workshop (IVMSP), 2016 IEEE 12th, Bordeaux, France, pages 5, July 2016. IEEE. Keyword(s): Reduction Order Model, Biomechanical Model, Simulation 3D.
    @inproceedings{rohe:hal-01373715,
    TITLE = {{Highly Reduced Model of the Cardiac Function for Fast Simulation}},
    AUTHOR = {Roh{\'e}, Marc-Michel and Moll{\'e}ro, Roch and Sermesant, Maxime and Pennec, Xavier},
    url-hal= {https://inria.hal.science/hal-01373715},
    BOOKTITLE = {{IEEE - IVMSP Workshop 2016}},
    ADDRESS = {Bordeaux, France},
    PUBLISHER = {{IEEE}},
    SERIES = {Image, Video, and Multidimensional Signal Processing Workshop (IVMSP), 2016 IEEE 12th},
    PAGES = {5},
    YEAR = {2016},
    MONTH = Jul,
    DOI = {10.1109/IVMSPW.2016.7528214},
    KEYWORDS = {Reduction Order Model ; Biomechanical Model ; Simulation 3D},
    PDF = {https://inria.hal.science/hal-01373715/file/IVMSP.pdf},
    HAL_ID = {hal-01373715},
    HAL_VERSION = {v1},
    
    }
    


  12. Marc-Michel Rohé, Maxime Sermesant, and Xavier Pennec. Barycentric Subspace Analysis: a new Symmetric Group-wise Paradigm for Cardiac Motion Tracking. In MICCAI 2016 - Medical Image Computing and Computer Assisted Intervention, volume 9902 of MICCAI 2016, Lecture Notes in Computer Science, Athens, Greece, pages 300-307, October 2016. Keyword(s): Medical Image Analysis, Atlas Framework, Registration, Manifold atlas.
    @inproceedings{rohe:hal-01373706,
    TITLE = {{Barycentric Subspace Analysis: a new Symmetric Group-wise Paradigm for Cardiac Motion Tracking}},
    AUTHOR = {Roh{\'e}, Marc-Michel and Sermesant, Maxime and Pennec, Xavier},
    url-hal= {https://inria.hal.science/hal-01373706},
    BOOKTITLE = {{MICCAI 2016 - Medical Image Computing and Computer Assisted Intervention}},
    ADDRESS = {Athens, Greece},
    SERIES = {MICCAI 2016, Lecture Notes in Computer Science},
    VOLUME = {9902},
    NUMBER = {448-456},
    PAGES = {300-307},
    YEAR = {2016},
    MONTH = Oct,
    DOI = {10.1007/978-3-319-46726-9\_35},
    KEYWORDS = {Medical Image Analysis ; Atlas Framework ; Registration ; Manifold atlas},
    PDF = {https://inria.hal.science/hal-01373706/file/paper929.pdf},
    HAL_ID = {hal-01373706},
    HAL_VERSION = {v1},
    
    }
    


  13. Sergio Sanchez-Martinez, Nicolas Duchateau, Tamas Erdei, Gabor Kunszt, Anna Degiovanni, Erberto Carluccio, Alan Fraser, Gemma Piella, and Bart Bijnens. Machine-learning based diagnosis of heart failure with preserved ejection fraction: how much do we agree with the guidelines?. In EuroEcho-Imaging, European Heart Journal: Cardiovascular Imaging, Abstracts from the EuroEcho-Imaging congress, Leipzig, Germany, December 2016. Note: In press.
    @inproceedings{sanchezmartinez:hal-01352285,
    TITLE = {{Machine-learning based diagnosis of heart failure with preserved ejection fraction: how much do we agree with the guidelines?}},
    AUTHOR = {Sanchez-Martinez, Sergio and Duchateau, Nicolas and Erdei, Tamas and Kunszt, Gabor and Degiovanni, Anna and Carluccio, Erberto and Fraser, Alan and Piella, Gemma and Bijnens, Bart},
    url-hal= {https://inria.hal.science/hal-01352285},
    NOTE = {In press},
    BOOKTITLE = {{EuroEcho-Imaging}},
    ADDRESS = {Leipzig, Germany},
    SERIES = {European Heart Journal: Cardiovascular Imaging, Abstracts from the EuroEcho-Imaging congress},
    YEAR = {2016},
    MONTH = Dec,
    HAL_ID = {hal-01352285},
    HAL_VERSION = {v1},
    
    }
    


  14. Yitian Zhou, Mathieu de Craene, Maxime Sermesant, and Olivier Bernard. Phase-Based Registration of Cardiac Tagged MR Images by Incorporating Anatomical Constraints. In International Workshop on Statistical Atlases and Computational Models of the Heart, Athens, Greece, pages 39-47, October 2016. Keyword(s): Cardiac tagged MR, Strain, Tag number constant constraint.
    @inproceedings{zhou:hal-02048117,
    TITLE = {{Phase-Based Registration of Cardiac Tagged MR Images by Incorporating Anatomical Constraints}},
    AUTHOR = {Zhou, Yitian and de Craene, Mathieu and Sermesant, Maxime and Bernard, Olivier},
    url-hal= {https://hal.science/hal-02048117},
    BOOKTITLE = {{International Workshop on Statistical Atlases and Computational Models of the Heart}},
    ADDRESS = {Athens, Greece},
    PAGES = {39-47},
    YEAR = {2016},
    MONTH = Oct,
    DOI = {10.1007/978-3-319-52718-5\_5},
    KEYWORDS = {Cardiac tagged MR ; Strain ; Tag number constant constraint},
    HAL_ID = {hal-02048117},
    HAL_VERSION = {v1},
    
    }
    


  15. Yitian Zhou, Mathieu de Craene, Oudom Somphone, Maxime Sermesant, and Olivier Bernard. Generation of Realistic 4D Synthetic CSPAMM Tagged MR Sequences for Benchmarking Cardiac Motion Tracking Algorithms. In International Workshop on Simulation and Synthesis in Medical Imaging, Athens, Greece, pages 108-117, October 2016.
    @inproceedings{zhou:hal-02048135,
    TITLE = {{Generation of Realistic 4D Synthetic CSPAMM Tagged MR Sequences for Benchmarking Cardiac Motion Tracking Algorithms}},
    AUTHOR = {Zhou, Yitian and de Craene, Mathieu and Somphone, Oudom and Sermesant, Maxime and Bernard, Olivier},
    url-hal= {https://hal.science/hal-02048135},
    BOOKTITLE = {{International Workshop on Simulation and Synthesis in Medical Imaging}},
    ADDRESS = {Athens, Greece},
    PAGES = {108-117},
    YEAR = {2016},
    MONTH = Oct,
    DOI = {10.1007/978-3-319-46630-9\_11},
    HAL_ID = {hal-02048135},
    HAL_VERSION = {v1},
    
    }
    


Patents, standards

  1. Stephane Nicolau, Anant S. Vemuri, Luc Soler, and Jacques Marescaux. Anatomical site relocalisation using dual data synchronisation. 20160022125, United States, January 2016.
    @patent{nicolau:hal-01308627,
    TITLE = {{Anatomical site relocalisation using dual data synchronisation}},
    AUTHOR = {Nicolau, Stephane and Vemuri, Anant S. and Soler, Luc and Marescaux, Jacques},
    url-hal= {https://inria.hal.science/hal-01308627},
    NUMBER = {20160022125},
    ADDRESS = {United States},
    YEAR = {2016},
    MONTH = Jan,
    HAL_ID = {hal-01308627},
    HAL_VERSION = {v1},
    
    }
    


Miscellaneous

  1. Nicholas Ayache. Le patient numérique personnalisé : une révolution, April 2016. Note: Article publié par l'Académie des Sciences dans l'Humanité.
    @misc{ayache:hal-01325407,
    TITLE = {{Le patient num{\'e}rique personnalis{\'e} : une r{\'e}volution}},
    AUTHOR = {Ayache, Nicholas},
    url-hal= {https://inria.hal.science/hal-01325407},
    NOTE = {Article publi{\'e} par l'Acad{\'e}mie des Sciences dans l'Humanit{\'e}},
    YEAR = {2016},
    MONTH = Apr,
    PDF = {https://inria.hal.science/hal-01325407/file/LHUMANITE_avril2016%281%29.pdf},
    HAL_ID = {hal-01325407},
    HAL_VERSION = {v1},
    
    }
    


  2. Nina Miolane, Xavier Pennec, and Susan Holmes. Towards a unified bayesian geometric framework for template estimation in Computational Anatomy. International Society of Bayesian Analysis: World Meeting, June 2016. Note: Poster. Keyword(s): template, shape, manifold, estimation, medical imaging.
    @misc{miolane:hal-01396716,
    TITLE = {{Towards a unified bayesian geometric framework for template estimation in Computational Anatomy}},
    AUTHOR = {Miolane, Nina and Pennec, Xavier and Holmes, Susan},
    url-hal= {https://hal.science/hal-01396716},
    NOTE = {Poster},
    HOWPUBLISHED = {{International Society of Bayesian Analysis: World Meeting}},
    YEAR = {2016},
    MONTH = Jun,
    KEYWORDS = {template ; shape ; manifold ; estimation ; medical imaging},
    PDF = {https://hal.science/hal-01396716/file/MiolanePosterISBAv2.pdf},
    HAL_ID = {hal-01396716},
    HAL_VERSION = {v1},
    
    }
    



BACK TO INDEX

Disclaimer:

This material is presented to ensure timely dissemination of scholarly and technical work. Copyright and all rights therein are retained by authors or by other copyright holders. All person copying this information are expected to adhere to the terms and constraints invoked by each author's copyright. In most cases, these works may not be reposted without the explicit permission of the copyright holder.

Les documents contenus dans ces répertoires sont rendus disponibles par les auteurs qui y ont contribué en vue d'assurer la diffusion à temps de travaux savants et techniques sur une base non-commerciale. Les droits de copie et autres droits sont gardés par les auteurs et par les détenteurs du copyright, en dépit du fait qu'ils présentent ici leurs travaux sous forme électronique. Les personnes copiant ces informations doivent adhérer aux termes et contraintes couverts par le copyright de chaque auteur. Ces travaux ne peuvent pas être rendus disponibles ailleurs sans la permission explicite du détenteur du copyright.

Last modified: Thu Mar 28 12:30:03 2024
Author: epione-publi.

This document was translated from BibTEX by bibtex2html