{"id":13,"date":"2015-06-15T10:26:53","date_gmt":"2015-06-15T08:26:53","guid":{"rendered":"http:\/\/members.loria.fr\/thierrygartiser\/?page_id=13"},"modified":"2016-06-06T15:31:38","modified_gmt":"2016-06-06T13:31:38","slug":"publications","status":"publish","type":"page","link":"https:\/\/members.loria.fr\/PFVillard\/publications\/","title":{"rendered":"Publication"},"content":{"rendered":"<p>   <!DOCTYPE html PUBLIC \"-\/\/W3C\/\/DTD XHTML 1.0 Transitional\/\/EN\" \"http:\/\/www.w3.org\/TR\/xhtml1\/DTD\/xhtml1-transitional.dtd\"> <html xmlns='http:\/\/www.w3.org\/1999\/xhtml' xml:lang='fr' lang='fr'> <head> <meta name=\"robots\" content=\"noindex, nofollow\" \/> <meta http-equiv=\"content-type\" content= \"text\/html;charset=UTF-8\" \/> <meta http-equiv=\"Content-Language\" content=\"fr\" \/> <link rel=\"stylesheet\" type=\"text\/css\" href=\"..\/css\/VisuGen.css\" \/> <link rel=\"stylesheet\" type=\"text\/css\" href=\"https:\/\/haltools.inria.fr\/\/css\/VisuRubriqueEncadre.css\" \/> <!-- Piwik haltools.inria.fr--> <script type=\"text\/javascript\">   var _paq = _paq || [];   _paq.push(['trackPageView']);   _paq.push(['enableLinkTracking']);   (function() {     var u=\"\/\/piwik.inria.fr\/\";     _paq.push(['setTrackerUrl', u+'piwik.php']);     _paq.push(['setSiteId', 25]);     var d=document, g=d.createElement('script'), s=d.getElementsByTagName('script')[0];     g.type='text\/javascript'; g.async=true; g.defer=true; g.src=u+'piwik.js'; s.parentNode.insertBefore(g,s);   })(); <\/script> <noscript><\/p>\n<p><img decoding=\"async\" src=\"\/\/piwik.inria.fr\/piwik.php?idsite=25\" style=\"border:0;\" alt=\"\" \/><\/p>\n<p><\/noscript> <!-- End Piwik Code -->  <title>Publications HAL de  pierre-frederic, Villard<\/title> <\/head> <body> <\/p>\n<div id=\"res_script\">\n<p class='Rubrique'>2025<\/p>\n<p class='SousRubrique'>Journal articles<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/hal.science\/hal-05229346\/file\/Screenshot%202025-08-29%20at%2009.31.15.jpg\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/9747539\/thumb\/little\" alt=\"Screenshot%202025-08-29%20at%2009.31.15.jpg\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Franck Vidal, Shaghayegh Afshari, Sharif Ahmed, Alberto Albiol, Francisco Albiol, et al.. X-ray simulations with gVXR in education, digital twining, experiment planning, and data analysis. <i>Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms<\/i>, 2025, 568, pp.165804. <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.1016\/j.nimb.2025.165804\">&#x27E8;10.1016\/j.nimb.2025.165804&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/hal.science\/hal-05229346v1\">&#x27E8;hal-05229346&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">gVirtualXray (gVXR) is an open-source framework that relies on the Beer-Lambert law to simulate X-ra &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <img decoding=\"async\" alt=\"https:\/\/hal.science\/hal-05229346\/file\/NIMB___journal_paper.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf_embargo.png\" border=\"0\" title=\"The file is embargoed until 2026-05-01\" \/> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/hal.science\/hal-05229346v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/hal.science\/hal-05062860\/file\/rod.jpg\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/9717795\/thumb\/little\" alt=\"rod.jpg\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Radhouane Jilani, Pierre-Fr\u00e9d\u00e9ric Villard, Erwan Kerrien. Quasi-Static Cosserat Rods in Contact with Implicit Surfaces. <i>IEEE Robotics and Automation Letters<\/i>, 2025, 10 (7), pp.6536-6543. <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.1109\/LRA.2025.3570131\">&#x27E8;10.1109\/LRA.2025.3570131&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/hal.science\/hal-05062860v1\">&#x27E8;hal-05062860&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">We propose a method for the quasi-static solution of Cosserat rods in contact with implicit surfaces &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/hal.science\/hal-05062860\/file\/24-4151_03_MS.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/hal.science\/hal-05062860\/file\/24-4151_03_MS.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/hal.science\/hal-05062860\/file\/24-4151_03_MS.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/hal.science\/hal-05062860v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/hal.science\/hal-04774575\/file\/Screenshot%202024-11-08%20at%2011.52.43.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/9554573\/thumb\/little\" alt=\"Screenshot%202024-11-08%20at%2011.52.43.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Nariman Khaledian, Pierre-Fr\u00e9d\u00e9ric Villard, Peter Hammer, Douglas Perrin, Marie-Odile Berger. Image-based simulation of mitral valve dynamic closure including anisotropy. <i>Medical Image Analysis<\/i>, 2025, 99, pp.103323. <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.1016\/j.media.2024.103323\">&#x27E8;10.1016\/j.media.2024.103323&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/hal.science\/hal-04774575v1\">&#x27E8;hal-04774575&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Simulation of the dynamic behavior of mitral valve closure could improve clinical treatment by predi &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/hal.science\/hal-04774575\/file\/MedIA%20%281%29.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/hal.science\/hal-04774575\/file\/MedIA%20%281%29.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/hal.science\/hal-04774575\/file\/MedIA%20%281%29.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/hal.science\/hal-04774575v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='SousRubrique'>Conference papers<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/hal.univ-lorraine.fr\/hal-05129468\/file\/radio.jpg\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/9714653\/thumb\/little\" alt=\"radio.jpg\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Franck Vidal, Shaghayegh Afshari, Alberto Albiol, Alberto Corbi Bellot, Anna Louise Brun, et al.. X-ray simulations with gVirtualXray in medicine and life sciences. <i>Eurographics Conference on Visualization (EUROVIS 2025)<\/i>, Jun 2025, Luxembourg, Luxembourg. <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.2312\/evm.20251974\">&#x27E8;10.2312\/evm.20251974&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/hal.univ-lorraine.fr\/hal-05129468v1\">&#x27E8;hal-05129468&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">gVirtualXray (gVXR) is a programming interface framework to simulate realistic X-ray projections in  &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/hal.univ-lorraine.fr\/hal-05129468\/file\/EG_Dirk_Bartz_Prize_2025.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/hal.univ-lorraine.fr\/hal-05129468\/file\/EG_Dirk_Bartz_Prize_2025.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/hal.univ-lorraine.fr\/hal-05129468\/file\/EG_Dirk_Bartz_Prize_2025.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/hal.univ-lorraine.fr\/hal-05129468v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/hal.science\/hal-05129450\/file\/circ_temp_coor.jpg\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/9715338\/thumb\/little\" alt=\"circ_temp_coor.jpg\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard, Peter Hammer, Marie-Odile Berger, Hao Gao. Universal Coordinates and\u00a0Parametrization Methods for\u00a0Mitral Valve Dynamic Simulations. <i>Functional Imaging and Modeling of the Heart (FIMH)<\/i>, Jun 2025, Dallas (TX), United States. pp.77-85, <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.1007\/978-3-031-94562-5_8\">&#x27E8;10.1007\/978-3-031-94562-5_8&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/hal.science\/hal-05129450v1\">&#x27E8;hal-05129450&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">The mitral valve plays a critical role in unidirectional blood flow within the heart, but is prone t &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/hal.science\/hal-05129450\/file\/FIMH25_Springer.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/hal.science\/hal-05129450\/file\/FIMH25_Springer.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/hal.science\/hal-05129450\/file\/FIMH25_Springer.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/hal.science\/hal-05129450v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='SousRubrique'>Habilitation \u00e0 diriger des recherches<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/hal.univ-lorraine.fr\/tel-05058340\/file\/hdr.jpg\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/9686683\/thumb\/little\" alt=\"hdr.jpg\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard. Quelques Contributions sur la Mod\u00e9lisation de D\u00e9formations d\u2019Organes. Informatique [cs]. Universit\u00e9 de Lorraine, 2025. <a target=\"_blank\" href=\"https:\/\/hal.univ-lorraine.fr\/tel-05058340v1\">&#x27E8;tel-05058340&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">In this habilitation thesis, I present my work on medical simulation, specifically the modeling of o &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/hal.univ-lorraine.fr\/tel-05058340\/file\/HDR.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/hal.univ-lorraine.fr\/tel-05058340\/file\/HDR.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/hal.univ-lorraine.fr\/tel-05058340\/file\/HDR.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/hal.univ-lorraine.fr\/tel-05058340v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='Rubrique'>2024<\/p>\n<p class='SousRubrique'>Conference papers<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-04774550\/file\/IROS24.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/9556436\/thumb\/little\" alt=\"IROS24.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Radhouane Jilani, Pierre-Fr\u00e9d\u00e9ric Villard, Erwan Kerrien. Solving Dynamic Cosserat Rods with Frictional Contact Using the Shooting Method and Implicit Surfaces. <i>International Conference on Intelligent Robots and Systems (IROS)<\/i>, IEEE, Oct 2024, Abu Dhabi, United Arab Emirates. <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.1109\/IROS58592.2024.10801774\">&#x27E8;10.1109\/IROS58592.2024.10801774&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-04774550v1\">&#x27E8;hal-04774550&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">We propose a method for solving the strong form of the dynamic Cosserat rod clamped-free boundary va &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-04774550\/file\/IROS24_1484_FI.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-04774550\/file\/IROS24_1484_FI.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-04774550\/file\/IROS24_1484_FI.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-04774550v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-04774573\/file\/ICRAX40.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/9556437\/thumb\/little\" alt=\"ICRAX40.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Radhouane Jilani, Pierre-Fr\u00e9d\u00e9ric Villard, Erwan Kerrien. Angular Strain Parameterization for Solving Static Cosserat Rods. <i>ICRA@40<\/i>, IEEE, Sep 2024, Rotterdam, Netherlands. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-04774573v1\">&#x27E8;hal-04774573&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">We show that static Cosserat rod clamped-free boundary value problems can be solved by only employin &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-04774573\/file\/ICRAX40_FI.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-04774573\/file\/ICRAX40_FI.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-04774573\/file\/ICRAX40_FI.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-04774573v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='SousRubrique'>Other publications<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/hal.science\/hal-04774702\/file\/Screenshot%202024-11-08%20at%2012.00.07.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/9552539\/thumb\/little\" alt=\"Screenshot%202024-11-08%20at%2012.00.07.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard, Thomas Waite, Robert Howe. Cosserat Rods for Modeling Tendon-Driven Robotic Catheter Systems. 2024, <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.48550\/arXiv.2407.07618\">&#x27E8;10.48550\/arXiv.2407.07618&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/hal.science\/hal-04774702v1\">&#x27E8;hal-04774702&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Tendon-driven robotic catheters are capable of precise execution of minimally invasive cardiac proce &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/hal.science\/hal-04774702\/file\/2407.07618v2.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/hal.science\/hal-04774702\/file\/2407.07618v2.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/hal.science\/hal-04774702\/file\/2407.07618v2.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/hal.science\/hal-04774702v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='Rubrique'>2023<\/p>\n<p class='SousRubrique'>Conference papers<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/hal.science\/hal-04246775\/file\/Image1.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/9299995\/thumb\/little\" alt=\"Image1.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Radhouane Jilani, Pierre-Fr\u00e9d\u00e9ric Villard, Erwan Kerrien. An Orthogonal Collocation Method for Static and Dynamic Cosserat Rods. <i>International Conference on Intelligent Robots and Systems (IROS)<\/i>, IEEE, Oct 2023, Detroit, United States. <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.1109\/IROS55552.2023.10341631\">&#x27E8;10.1109\/IROS55552.2023.10341631&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/hal.science\/hal-04246775v1\">&#x27E8;hal-04246775&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">We propose an orthogonal collocation method (CM) for solving Cosserat rod Dirichlet-Neumann boundary &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/hal.science\/hal-04246775\/file\/IROS23_2161_FI.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/hal.science\/hal-04246775\/file\/IROS23_2161_FI.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/hal.science\/hal-04246775\/file\/IROS23_2161_FI.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/hal.science\/hal-04246775v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/hal.science\/hal-04117508\/file\/Case_setup_copy.jpg\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/9235193\/thumb\/little\" alt=\"Case_setup_copy.jpg\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Nariman Khaledian, Pierre-Fr\u00e9d\u00e9ric Villard, Peter E. Hammer, Douglas P. Perrin, Marie-Odile Berger. Influence of Anisotropy on Fluid-Structure Interaction Simulations of Image-Based and Generic Mitral Valves. <i>The 12th International Conference On Functional Imaging And Modeling Of The Heart<\/i>, Jun 2023, Lyon, France. pp.455-464, <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.1007\/978-3-031-35302-4_47\">&#x27E8;10.1007\/978-3-031-35302-4_47&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/hal.science\/hal-04117508v1\">&#x27E8;hal-04117508&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">The dynamic behavior of the mitral valve is highly influenced by the material model used to describe &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/hal.science\/hal-04117508\/file\/FIMH23.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/hal.science\/hal-04117508\/file\/FIMH23.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/hal.science\/hal-04117508\/file\/FIMH23.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/hal.science\/hal-04117508v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='Rubrique'>2022<\/p>\n<p class='SousRubrique'>Journal articles<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-03748102\/file\/Screen%20Shot%202022-08-09%20at%2010.49.42%20AM.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/9067427\/thumb\/little\" alt=\"Screen%20Shot%202022-08-09%20at%2010.49.42%20AM.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Igor Tominec, Pierre-Fr\u00e9d\u00e9ric Villard, Elisabeth Larsson, V\u00edctor Bayona, Nicola Cacciani. An unfitted radial basis function generated finite difference method applied to thoracic diaphragm simulations. <i>Journal of Computational Physics<\/i>, 2022, pp.111496. <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.1016\/j.jcp.2022.111496\">&#x27E8;10.1016\/j.jcp.2022.111496&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-03748102v1\">&#x27E8;hal-03748102&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">The thoracic diaphragm is the muscle that drives the respiratory cycle of a human being. Using a sys &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-03748102\/file\/2D_diaphragm_with_time_dependent_boundary_conditions.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-03748102\/file\/2D_diaphragm_with_time_dependent_boundary_conditions.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-03748102\/file\/2D_diaphragm_with_time_dependent_boundary_conditions.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-03748102v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-03708218\/file\/d_perfect_closure.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/9050318\/thumb\/little\" alt=\"d_perfect_closure.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Nariman Khaledian, Pierre-Fr\u00e9d\u00e9ric Villard, Marie-Odile Berger. Capturing Contact in Mitral Valve Dynamic Closure with Fluid-Structure Interaction Simulation. <i>International Journal of Computer Assisted Radiology and Surgery<\/i>, 2022, <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.1007\/s11548-022-02674-4\">&#x27E8;10.1007\/s11548-022-02674-4&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-03708218v1\">&#x27E8;hal-03708218&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Realistic fluid-structure interaction (FSI) simulation of the mitral valve opens the way toward plan &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-03708218\/file\/IPCAI_2022.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-03708218\/file\/IPCAI_2022.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-03708218\/file\/IPCAI_2022.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-03708218v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-03708243\/file\/syntheGrid.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/9050321\/thumb\/little\" alt=\"syntheGrid.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard, Maureen Boudart, Ioana Ilea, Fabien Pierre. Anomaly Detection on Textured Images with Convolutional Neural Network for Quality Control of Micrometric Woven Meshes. <i>Fluid Dynamics and Materials Processing<\/i>, 2022, 18 (6), pp.1639 &#8211; 1648. <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.32604\/fdmp.2022.021726\">&#x27E8;10.32604\/fdmp.2022.021726&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-03708243v1\">&#x27E8;hal-03708243&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Industrial woven meshes are composed of metal material and are often used in construction, industria &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-03708243\/file\/TSP_FDMP_21726.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-03708243\/file\/TSP_FDMP_21726.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-03708243\/file\/TSP_FDMP_21726.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-03708243v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='Rubrique'>2021<\/p>\n<p class='SousRubrique'>Journal articles<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/hal.science\/hal-03235096\/file\/clemence.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/8849104\/thumb\/little\" alt=\"clemence.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Fabien Pierre, Mathieu Amendola, Cl\u00e9mence Bigeard, Timoth\u00e9 Ruel, Pierre-Fr\u00e9d\u00e9ric Villard. Segmentation with Active Contours. <i>Image Processing On Line<\/i>, 2021, 11, pp.120 &#8211; 141. <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.5201\/ipol.2021.298\">&#x27E8;10.5201\/ipol.2021.298&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/hal.science\/hal-03235096v1\">&#x27E8;hal-03235096&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Active contours (also known as snakes) have shown their ability to introduce regularity on image seg &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/hal.science\/hal-03235096\/file\/article_lr.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/hal.science\/hal-03235096\/file\/article_lr.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/hal.science\/hal-03235096\/file\/article_lr.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/hal.science\/hal-03235096v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/hal.science\/hal-03262496\/file\/ged.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/8849119\/thumb\/little\" alt=\"ged.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Daryna Panicheva, Pierre-Fr\u00e9d\u00e9ric Villard, Peter E Hammer, Douglas Perrin, Marie-Odile Berger. Automatic extraction of the mitral valve chordae geometry for biomechanical simulation. <i>International Journal of Computer Assisted Radiology and Surgery<\/i>, 2021, Proceedings of IPCAI 2021, 16 (5), pp.709-720. <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.1007\/s11548-021-02368-3\">&#x27E8;10.1007\/s11548-021-02368-3&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/hal.science\/hal-03262496v1\">&#x27E8;hal-03262496&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Mitral valve computational models are widely studied in the literature. They can be used for preoper &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/hal.science\/hal-03262496\/file\/Automatic%20_extraction_of_the_mitral_valve_chordae_geometry_for_biomechanical%20_simulation.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/hal.science\/hal-03262496\/file\/Automatic%20_extraction_of_the_mitral_valve_chordae_geometry_for_biomechanical%20_simulation.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/hal.science\/hal-03262496\/file\/Automatic%20_extraction_of_the_mitral_valve_chordae_geometry_for_biomechanical%20_simulation.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/hal.science\/hal-03262496v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='SousRubrique'>Conference papers<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-03147251\/file\/err_log_unfitted_diaphragm_h%3D0_066_polydeg%3D5_q%3D10.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/8782804\/thumb\/little\" alt=\"err_log_unfitted_diaphragm_h%3D0_066_polydeg%3D5_q%3D10.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Elisabeth Larsson, Pierre-Fr\u00e9d\u00e9ric Villard, Igor Tominec, Nicola Cacciani. Geometry Reconstruction from Noisy Data using a Radial Basis Function Partition of Unity Method. <i>CSE 2021 &#8211; SIAM Conference on Computational Science and Engineering<\/i>, Mar 2021, Fort Worth\/Virtual, United States. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-03147251v1\">&#x27E8;hal-03147251&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Manual three-dimensional segmentation of medical images results in noisy data sets representing thre &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette LienBibtex\"> <a href=\"https:\/\/inria.hal.science\/hal-03147251v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/dd>\n<\/dl>\n<p class='Rubrique'>2020<\/p>\n<p class='SousRubrique'>Book sections<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/hal.science\/hal-02917575v1\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/8849132\/thumb\/little\" alt=\"\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Nicola Cacciani, Elisabeth Larsson, Alberto Lauro, Marco Meggiolaro, Alessio Scatto, et al.. A First Meshless Approach to Simulation of the Elastic Behaviour of the Diaphragm. Sherwin S., Moxey D., Peir\u00f3 J., Vincent P., Schwab C. <i>Spectral and High Order Methods for Partial Differential Equations ICOSAHOM 2018<\/i>, 134, Springer, pp.501-512, 2020, Lecture Notes in Computational Science and Engineering, 978-3-030-39646-6. <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.1007\/978-3-030-39647-3_40\">&#x27E8;10.1007\/978-3-030-39647-3_40&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/hal.science\/hal-02917575v1\">&#x27E8;hal-02917575&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">The diaphragm is the main muscle that regulates the human respiration. When a patient is put under c &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/hal.science\/hal-02917575\/file\/icosapaper.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/hal.science\/hal-02917575\/file\/icosapaper.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/hal.science\/hal-02917575\/file\/icosapaper.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/hal.science\/hal-02917575v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='Rubrique'>2019<\/p>\n<p class='SousRubrique'>Conference papers<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-02368810\/file\/extend.jpg\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/8529953\/thumb\/little\" alt=\"extend.jpg\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Daryna Panicheva, Pierre-Fr\u00e9d\u00e9ric Villard, Peter Hammer, Marie-Odile Berger. Physically-coherent Extraction of Mitral Valve Chordae. <i>International Conference in Computing in Cardiology<\/i>, Sep 2019, Singapore, Singapore. pp.4. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-02368810v1\">&#x27E8;hal-02368810&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Surgical repair of the mitral valve is challenging as it is difficult to anticipate the outcome of a &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-02368810\/file\/cinc2019_full.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-02368810\/file\/cinc2019_full.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-02368810\/file\/cinc2019_full.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-02368810v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-02057413\/file\/CES19.jpg\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/8416195\/thumb\/little\" alt=\"CES19.jpg\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Nicola Cacciani, Elisabeth Larsson, Igor Tominec, Pierre-Fr\u00e9d\u00e9ric Villard. Meshfree Simulation of Human Respiratory Muscles. <i>CSE 19 &#8211; SIAM Conference on Computational Science and Engineering<\/i>, Feb 2019, Spokane, United States. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-02057413v1\">&#x27E8;hal-02057413&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">The main objective of our research is to understand the functionality of a human diaphragm, the main &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette LienBibtex\"> <a href=\"https:\/\/inria.hal.science\/hal-02057413v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-02050846\/file\/p3_labelsGood.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/8412157\/thumb\/little\" alt=\"p3_labelsGood.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Daryna Panicheva, Pierre-Fr\u00e9d\u00e9ric Villard, Marie-Odile Berger. Toward an automatic segmentation of mitral valve chordae. <i>SPIE Medical Imaging<\/i>, SPIE, Feb 2019, San Diego, United States. pp.1095315-1095323, <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.1117\/12.2511943\">&#x27E8;10.1117\/12.2511943&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-02050846v1\">&#x27E8;hal-02050846&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Heart disease is the leading cause of death in the developed world. Cardiac pathologies include abno &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-02050846\/file\/Topology_based_segmentation_of_the_Mitral_Chordae_full.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-02050846\/file\/Topology_based_segmentation_of_the_Mitral_Chordae_full.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-02050846\/file\/Topology_based_segmentation_of_the_Mitral_Chordae_full.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-02050846v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='Rubrique'>2018<\/p>\n<p class='SousRubrique'>Journal articles<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/hal.science\/hal-01643868\/file\/valve.jpg\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/8262049\/thumb\/little\" alt=\"valve.jpg\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard, Peter E. Hammer, Douglas P. Perrin, Pedro J. del Nido, Robert Howe. Fast Image-Based Mitral Valve Simulation from Individualized Geometry. <i>The International Journal of Medical Robotics and Computer Assisted Surgery<\/i>, 2018, 14 (2), pp.e1880. <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.1002\/rcs.1880\">&#x27E8;10.1002\/rcs.1880&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/hal.science\/hal-01643868v1\">&#x27E8;hal-01643868&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Background: Common surgical procedures on the mitral valve of the heart include modifications to the &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/hal.science\/hal-01643868\/file\/IJMRCASV.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/hal.science\/hal-01643868\/file\/IJMRCASV.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/hal.science\/hal-01643868\/file\/IJMRCASV.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/hal.science\/hal-01643868v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='Rubrique'>2017<\/p>\n<p class='SousRubrique'>Conference papers<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/hal.science\/hal-01588532\/file\/Screen%20Shot%202017-09-15%20at%2014.55.16.jpg\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/8222235\/thumb\/little\" alt=\"Screen%20Shot%202017-09-15%20at%2014.55.16.jpg\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Aaron Sujar, Andreas Meuleman, Pierre-Fr\u00e9d\u00e9ric Villard, Marcos Garcia, Franck P. Vidal. gVirtualXRay: Virtual X-Ray Imaging Library on GPU. <i>Computer Graphics and Visual Computing <\/i>, Sep 2017, Manchester, United Kingdom. pp.61-68, <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.2312\/cgvc.20171279\">&#x27E8;10.2312\/cgvc.20171279&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/hal.science\/hal-01588532v1\">&#x27E8;hal-01588532&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">We present an Open-source library called gVirtualXRay to simulate realistic X-ray images in realtime &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/hal.science\/hal-01588532\/file\/EGUK_organ_rendering_final.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/hal.science\/hal-01588532\/file\/EGUK_organ_rendering_final.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/hal.science\/hal-01588532\/file\/EGUK_organ_rendering_final.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/hal.science\/hal-01588532v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='Rubrique'>2016<\/p>\n<p class='SousRubrique'>Journal articles<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-01266065\/file\/rib12.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/7857626\/thumb\/little\" alt=\"rib12.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Franck Vidal, Pierre-Fr\u00e9d\u00e9ric Villard. Development and Validation of Real-time Simulation of X-ray Imaging with Respiratory Motion. <i>Computerized Medical Imaging and Graphics<\/i>, 2016, 49, pp.15. <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.1016\/j.compmedimag.2015.12.002\">&#x27E8;10.1016\/j.compmedimag.2015.12.002&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-01266065v1\">&#x27E8;hal-01266065&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">We present a framework that combines evolutionary optimisation, soft tissue modelling and ray tracin &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-01266065\/file\/Vidal2016ComputMedImagingGraph.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-01266065\/file\/Vidal2016ComputMedImagingGraph.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-01266065\/file\/Vidal2016ComputMedImagingGraph.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-01266065v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='SousRubrique'>Conference papers<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-01356012\/file\/ISMAR2016.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/8113160\/thumb\/little\" alt=\"ISMAR2016.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Jean Petitprez, Erwan Kerrien, Pierre-Fr\u00e9d\u00e9ric Villard. PoLAR: a Portable Library for Augmented Reality. <i>15th IEEE International Symposium on Mixed and Augmented Reality (ISMAR)<\/i>, IEEE Sep 2016, Merida, Mexico. pp.4. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-01356012v1\">&#x27E8;hal-01356012&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">We present here a novel cross-platform library to facilitate research and development applications d &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-01356012\/file\/PoLAR_ISMAR.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-01356012\/file\/PoLAR_ISMAR.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-01356012\/file\/PoLAR_ISMAR.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-01356012v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='Rubrique'>2015<\/p>\n<p class='SousRubrique'>Conference papers<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-01237756\/file\/splash.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/7666081\/thumb\/little\" alt=\"splash.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard, Peter E. Hammer, Douglas P. Perrin, Pedro J. del Nido, Robert Howe. Individual-Based Mitral Valve Finite-Element Model. <i>Innovation, Design, and Emerging Alliances in Surgery<\/i>, Mar 2015, Boston, United States. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-01237756v1\">&#x27E8;hal-01237756&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Mitral valve surgical repair is a complex procedure where the outcome largely depends on the surgeon &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette LienBibtex\"> <a href=\"https:\/\/inria.hal.science\/hal-01237756v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-01237833\/file\/VCBM.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/7666056\/thumb\/little\" alt=\"VCBM.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Franck P. Vidal, Pierre-Fr\u00e9d\u00e9ric Villard. Simulated Motion Artefact in Computed Tomography. <i>Eurographics Workshop on Visual Computing for Biology and Medicine<\/i>, 2015, Chester, United Kingdom. <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.2312\/vcbm.20151228\">&#x27E8;10.2312\/vcbm.20151228&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-01237833v1\">&#x27E8;hal-01237833&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">We propose a simulation framework to simulate the computed tomography acquisition process. It includ &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-01237833\/file\/vcbm2015.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-01237833\/file\/vcbm2015.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-01237833\/file\/vcbm2015.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-01237833v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='SousRubrique'>Videos<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/hal.science\/hal-03419776v1\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/8907883\/thumb\/little\" alt=\"\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard. Closure of a Mitral Valve  of a Real Porcine Heart Emerged in a Water Tank. 2015. <a target=\"_blank\" href=\"https:\/\/hal.science\/hal-03419776v1\">&#x27E8;hal-03419776&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">This movie is a slow-motion video of the closure of a mitral valve. This experiment uses a real porc &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/hal.science\/hal-03419776\/file\/realPorcineHeartEmergedInWaterTank.mp4\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/hal.science\/hal-03419776\/file\/realPorcineHeartEmergedInWaterTank.mp4\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/hal.science\/hal-03419776\/file\/realPorcineHeartEmergedInWaterTank.mp4\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/hal.science\/hal-03419776v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='Rubrique'>2014<\/p>\n<p class='SousRubrique'>Conference papers<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-01057861\/file\/ISBMS%20%281%29.jpg\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/8115246\/thumb\/little\" alt=\"ISBMS%20%281%29.jpg\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Matthieu Loosvelt, Pierre-Fr\u00e9d\u00e9ric Villard, Marie-Odile Berger. Using a biomechanical model for tongue tracking in ultrasound images. <i>ISBMS &#8211; 6th International Symposium on Biomedical Simulation<\/i>, Oct 2014, Strasbourg, France. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-01057861v1\">&#x27E8;hal-01057861&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">We propose in this paper a new method for tongue tracking in ultrasound images which is based on a b &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-01057861\/file\/isbms.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-01057861\/file\/isbms.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-01057861\/file\/isbms.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-01057861v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/hal.science\/hal-00933621\/file\/tool.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5041585\/thumb\/little\" alt=\"tool.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard, Nicolas Koenig, Cyril Perrenot, Manuela Perez, Piers Boshier. Toward a Realistic Simulation of Organ Dissection. <i>MMVR &#8211; Medicine Meets Virtual Reality 21<\/i>, Feb 2014, Manhattan Beach, United States. pp.452-458, <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.3233\/978-1-61499-375-9-452\">&#x27E8;10.3233\/978-1-61499-375-9-452&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/hal.science\/hal-00933621v1\">&#x27E8;hal-00933621&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Whilst laparoscopic surgical simulators are becoming increasingly realistic they cannot, as yet, ful &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/hal.science\/hal-00933621\/file\/Villard_PF.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/hal.science\/hal-00933621\/file\/Villard_PF.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/hal.science\/hal-00933621\/file\/Villard_PF.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/hal.science\/hal-00933621v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/hal.science\/hal-00933638\/file\/sequence.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5041652\/thumb\/little\" alt=\"sequence.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard, Pierre Escamilla, Erwan Kerrien, S\u00e9bastien Gorges, Yves Trousset, et al.. Preliminary Study of Rib Articulated Model based on Dynamic Fluoroscopy Images. <i>SPIE Medical Imaging<\/i>, Feb 2014, San Diego, United Kingdom. pp.90361Y, <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.1117\/12.2043003\">&#x27E8;10.1117\/12.2043003&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/hal.science\/hal-00933638v1\">&#x27E8;hal-00933638&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">We present in this paper a preliminary study of rib motion tracking during Interventional Radiology  &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/hal.science\/hal-00933638\/file\/spie2014.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/hal.science\/hal-00933638\/file\/spie2014.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/hal.science\/hal-00933638\/file\/spie2014.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/hal.science\/hal-00933638v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='Rubrique'>2013<\/p>\n<p class='SousRubrique'>Journal articles<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-00849184\/file\/hal-00849184.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5101898\/thumb\/little\" alt=\"hal-00849184.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard, Franck P. Vidal, Llyr Ap Cenydd, Richard Holbrey, S. Pisharody, et al.. Interventional radiology virtual simulator for liver biopsy. <i>International Journal of Computer Assisted Radiology and Surgery<\/i>, 2013, pp.1-13. <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.1007\/s11548-013-0929-0\">&#x27E8;10.1007\/s11548-013-0929-0&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00849184v1\">&#x27E8;hal-00849184&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Purpose Training in Interventional Radiology currently uses the apprenticeship model, where clinical &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-00849184\/file\/ijcars_PFV13.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-00849184\/file\/ijcars_PFV13.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-00849184\/file\/ijcars_PFV13.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-00849184v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='SousRubrique'>Conference papers<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-00824228\/file\/hal-00824228.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5264647\/thumb\/little\" alt=\"hal-00824228.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Franck P. Vidal, Pierre-Fr\u00e9d\u00e9ric Villard, Evelyne Lutton. Automatic tuning of respiratory model for patient-based simulation. <i>MIBISOC 2013 &#8211; International Conference on Medical Imaging using Bio-inspired and Soft Computing<\/i>, May 2013, Brussels, Belgium. pp.225-231. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00824228v1\">&#x27E8;hal-00824228&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">This paper is an overview of a method recently pub- lished in a biomedical journal (IEEE Transaction &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-00824228\/file\/Vidal2013MIBISOC-Respiration.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-00824228\/file\/Vidal2013MIBISOC-Respiration.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-00824228\/file\/Vidal2013MIBISOC-Respiration.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-00824228v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='Rubrique'>2012<\/p>\n<p class='SousRubrique'>Journal articles<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-00731910\/file\/hal-00731910.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5266759\/thumb\/little\" alt=\"hal-00731910.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Franck P. Vidal, Pierre-Fr\u00e9d\u00e9ric Villard, Evelyne Lutton. Tuning of patient specific deformable models using an adaptive evolutionary optimization strategy. <i>IEEE Transactions on Biomedical Engineering<\/i>, 2012, 59 (10), pp.2942 &#8211; 2949. <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.1109\/TBME.2012.2213251\">&#x27E8;10.1109\/TBME.2012.2213251&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00731910v1\">&#x27E8;hal-00731910&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">We present and analyze the behavior of an evolutionary algorithm designed to estimate the parameters &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-00731910\/file\/Vidal2012_final.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-00731910\/file\/Vidal2012_final.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-00731910\/file\/Vidal2012_final.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-00731910v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='SousRubrique'>Conference papers<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-00670512\/file\/hal-00670512.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5143677\/thumb\/little\" alt=\"hal-00670512.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard, Franck Vidal, Fernando Bello, Nigel W. John. A Method to Compute Respiration Parameters for Patient-based Simulators. <i>MMVR &#8211; Medicine Meets Virtual Reality 19<\/i>, Feb 2012, Newport Beach (CA), United States. pp.529-533, <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.3233\/978-1-61499-022-2-529\">&#x27E8;10.3233\/978-1-61499-022-2-529&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00670512v1\">&#x27E8;hal-00670512&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">We propose a method to automatically tune a patient-based virtual environment training simulator for &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-00670512\/file\/MMVR19_PFV.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-00670512\/file\/MMVR19_PFV.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-00670512\/file\/MMVR19_PFV.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-00670512v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='Rubrique'>2011<\/p>\n<p class='SousRubrique'>Journal articles<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/inria-00560487\/file\/stat.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5126395\/thumb\/little\" alt=\"stat.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Sheena Johnson, Carianne Hunt, Helen Woolnough, Martin Crawshaw, Caroline Kilkenny, et al.. Virtual Reality, Ultrasound-guided Liver Biopsy Simulator: Development and Performance Discrimination. <i>British Journal of Radiology<\/i>, 2011, <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.1259\/bjr\/47436030\">&#x27E8;10.1259\/bjr\/47436030&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/inria-00560487v1\">&#x27E8;inria-00560487&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Objectives: Identify and prospectively investigate simulated ultrasound-guided targeted liver biopsy &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/inria-00560487\/file\/BJR130710.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/inria-00560487\/file\/BJR130710.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/inria-00560487\/file\/BJR130710.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/inria-00560487v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='SousRubrique'>Conference papers<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/inria-00570250\/file\/inria-00570250.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5151549\/thumb\/little\" alt=\"inria-00570250.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Niels Hald, Sudip K. Sarker, Paul Ziprin, Pierre-Fr\u00e9d\u00e9ric Villard, Fernando Bello. Open surgery simulation of inguinal hernia repair.. <i>Medicine Meets Virtual Reality (MMVR)<\/i>, Feb 2011, Newport Beach, California, United States. pp.202-208, <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.3233\/978-1-60750-706-2-202\">&#x27E8;10.3233\/978-1-60750-706-2-202&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/inria-00570250v1\">&#x27E8;inria-00570250&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Inguinal hernia repair procedures are often one of the first surgical procedures faced by junior sur &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/inria-00570250\/file\/MMVR.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/inria-00570250\/file\/MMVR.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/inria-00570250\/file\/MMVR.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/inria-00570250v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='SousRubrique'>Book sections<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/inria-00621263\/file\/inria-00621263.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5005389\/thumb\/little\" alt=\"inria-00621263.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard, Piers Boshier, Fernando Bello, Derek Gould. Virtual Reality Simulation of Liver Biopsy with a Respiratory Component. Hirokazu Takahashi. <i>Liver Biopsy<\/i>, InTech, 2011, 978-953-307-644-7. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/inria-00621263v1\">&#x27E8;inria-00621263&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">The field of computer-based simulators has grown exponentially in the last few decades, especially i &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/inria-00621263\/file\/InTech-Virtual_reality_simulation_of_liver_biopsy_with_a_respiratory_component.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/inria-00621263\/file\/InTech-Virtual_reality_simulation_of_liver_biopsy_with_a_respiratory_component.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/inria-00621263\/file\/InTech-Virtual_reality_simulation_of_liver_biopsy_with_a_respiratory_component.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/inria-00621263v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='SousRubrique'>Books<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/hal.science\/hal-00595549\/file\/simulation-du-mouvement-pulmonaire-pour-un-traitement-oncologique.jpg\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5209364\/thumb\/little\" alt=\"simulation-du-mouvement-pulmonaire-pour-un-traitement-oncologique.jpg\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard. Simulation du Mouvement Pulmonaire pour un Traitement Oncologique &#8211; Application \u00e0 la Radioth\u00e9rapie et \u00e0 l&rsquo;Hadronth\u00e9rapie. Editions universitaires europeennes, pp.152, 2011. <a target=\"_blank\" href=\"https:\/\/hal.science\/hal-00595549v1\">&#x27E8;hal-00595549&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">L&rsquo;objectif de ces travaux est d&rsquo;am\u00e9liorer le traitement curatif du cancer du poumon par radioth\u00e9ra &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/hal.science\/hal-00595549\/file\/Simulation_du_Mouvement_Pulmonaire_pour_un_Traitement_Oncologique.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/hal.science\/hal-00595549\/file\/Simulation_du_Mouvement_Pulmonaire_pour_un_Traitement_Oncologique.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/hal.science\/hal-00595549\/file\/Simulation_du_Mouvement_Pulmonaire_pour_un_Traitement_Oncologique.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/hal.science\/hal-00595549v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='Rubrique'>2010<\/p>\n<p class='SousRubrique'>Conference papers<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/hal.science\/hal-00485720\/file\/no_unsharpness.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5134325\/thumb\/little\" alt=\"no_unsharpness.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Franck P. Vidal, Pierre-Fr\u00e9d\u00e9ric Villard, Manuel Garnier, Nicolas Freud, Jean Michel L\u00e9tang, et al.. Joint Simulation of Transmission X-ray Imaging on GPU and Patient&rsquo;s Respiration on CPU. <i>American Association of Physicists in Medicine Annual Meeting &#8211; AAPM 2010<\/i>, Jul 2010, Philadelphia, United States. <a target=\"_blank\" href=\"https:\/\/hal.science\/hal-00485720v1\">&#x27E8;hal-00485720&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Purpose: We previously proposed to compute the X-ray attenuation from polygons directly on the GPU,  &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/hal.science\/hal-00485720\/file\/Vidal2010AAPM-1.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/hal.science\/hal-00485720\/file\/Vidal2010AAPM-1.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/hal.science\/hal-00485720\/file\/Vidal2010AAPM-1.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/hal.science\/hal-00485720v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/hal.science\/hal-00509817\/file\/hal-00509817.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/4998660\/thumb\/little\" alt=\"hal-00509817.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Jacques Saad\u00e9, Anne-Laure Didier, Pierre-Fr\u00e9d\u00e9ric Villard, Romain Buttin, Jean-Michel Moreau, et al.. A Preliminary Study For A Biomechanical Model Of The Respiratory System. <i>Engineering and Computational Sciences for Medical Imaging in Oncology &#8211; ECSMIO 2010<\/i>, May 2010, Angers, France. pp.509-515. <a target=\"_blank\" href=\"https:\/\/hal.science\/hal-00509817v1\">&#x27E8;hal-00509817&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Tumour motion is an essential source of error for treatment planning in radiation therapy. This moti &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/hal.science\/hal-00509817\/file\/A_PRELIMINARY_STUDY_FOR_A_BIOMECHANICAL_MODEL_OF_THE_RESPIRATORY_SYSTEM.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/hal.science\/hal-00509817\/file\/A_PRELIMINARY_STUDY_FOR_A_BIOMECHANICAL_MODEL_OF_THE_RESPIRATORY_SYSTEM.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/hal.science\/hal-00509817\/file\/A_PRELIMINARY_STUDY_FOR_A_BIOMECHANICAL_MODEL_OF_THE_RESPIRATORY_SYSTEM.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/hal.science\/hal-00509817v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='Rubrique'>2009<\/p>\n<p class='SousRubrique'>Journal articles<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/hal.science\/hal-00430223\/file\/hal-00430223.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5012022\/thumb\/little\" alt=\"hal-00430223.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard, Franck P. Vidal, Carrie Hunt, Fernando Bello, Nigel W. John, et al.. A prototype percutaneous transhepatic cholangiography training simulator with real-time breathing motion. <i>International Journal of Computer Assisted Radiology and Surgery<\/i>, 2009, 4 (6), pp.571-578. <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.1007\/s11548-009-0367-1\">&#x27E8;10.1007\/s11548-009-0367-1&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/hal.science\/hal-00430223v1\">&#x27E8;hal-00430223&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Purpose : We present here a simulator for interventional radiology focusing on percutaneous transhep &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/hal.science\/hal-00430223\/file\/CARS-revisions_final.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/hal.science\/hal-00430223\/file\/CARS-revisions_final.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/hal.science\/hal-00430223\/file\/CARS-revisions_final.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/hal.science\/hal-00430223v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='SousRubrique'>Conference papers<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/hal.science\/hal-00509830\/file\/hal-00509830.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/4998676\/thumb\/little\" alt=\"hal-00509830.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Amrita Sinha, Karen T. Flood, David Kessel, Sheena Johnson, Carianne Hunt, et al.. The Role of Simulation in Medical Training and Assessment. <i>Radiological Society of North America &#8211; RSNA 2009<\/i>, Nov 2009, Chicago, United States. <a target=\"_blank\" href=\"https:\/\/hal.science\/hal-00509830v1\">&#x27E8;hal-00509830&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">An overview to medical simulation has been provided. In the context of procedural interventional rad &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/hal.science\/hal-00509830\/file\/RSNA_Simulation_Abstract.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/hal.science\/hal-00509830\/file\/RSNA_Simulation_Abstract.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/hal.science\/hal-00509830\/file\/RSNA_Simulation_Abstract.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/hal.science\/hal-00509830v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/hal.science\/hal-00510329\/file\/hal-00510329.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5001245\/thumb\/little\" alt=\"hal-00510329.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Amrita Sinha, Sheena Johnson, Carianne Hunt, Helen Woolnough, Franck P. Vidal, et al.. Importance of virtual reality simulators in interventional radiology: the ImaGiNe-S CIRSE 2008 experience. <i>Cardiovascular and Interventional Radiological Society of Europe &#8211; CIRSE 2009<\/i>, Sep 2009, Lisbon, Portugal. <a target=\"_blank\" href=\"https:\/\/hal.science\/hal-00510329v1\">&#x27E8;hal-00510329&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">AIM: To determine face and content validity of a physics based virtual reality interventional radiol &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/hal.science\/hal-00510329\/file\/Importance_of_virtual_reality_simulators_in_interventional_radiology.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/hal.science\/hal-00510329\/file\/Importance_of_virtual_reality_simulators_in_interventional_radiology.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/hal.science\/hal-00510329\/file\/Importance_of_virtual_reality_simulators_in_interventional_radiology.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/hal.science\/hal-00510329v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-00973187\/file\/hal-00841566.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5146238\/thumb\/little\" alt=\"hal-00841566.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard, Vincent Luboz, Paul Neumann, St\u00e9phane Cotin, Steve Dawson. CT Scan Merging to Enhance Navigation in Interventional Radiology Simulation. <i>Medicine Meet Virtual Reality conference 17<\/i>, Jan 2009, Long Beach, United States. pp.407-412, <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.3233\/978-1-58603-964-6-407\">&#x27E8;10.3233\/978-1-58603-964-6-407&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00973187v1\">&#x27E8;hal-00973187&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">We present a method to merge two distinct CT scans acquired from dif- ferent patients such that the  &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-00973187\/file\/VILLARD_P_1.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-00973187\/file\/VILLARD_P_1.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-00973187\/file\/VILLARD_P_1.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-00973187v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-00849193\/file\/hal-00849193.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5101914\/thumb\/little\" alt=\"hal-00849193.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard, Franck P. Vidal, Carrie Hunt, Fernando Bello, Nigel W. John, et al.. Percutaneous Transhepatic Cholangiography Training Simulator with Real-time Breathing Motion. <i>Proceeding of the 23rd International Congress of Computer Assisted Radiology and Surgery<\/i>, 2009, Berlin, Germany. pp.S66-S67, <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.1007\/s11548-009-0326-x\">&#x27E8;10.1007\/s11548-009-0326-x&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00849193v1\">&#x27E8;hal-00849193&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Purpose : We present here a simulator for interventional radiology focusing on percutaneous transhep &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-00849193\/file\/CARS.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-00849193\/file\/CARS.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-00849193\/file\/CARS.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-00849193v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-00849195\/file\/hal-00849195.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5101920\/thumb\/little\" alt=\"hal-00849195.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Fernando Bello, Andrew Bulpitt, Derek A. Gould, Richard Holbrey, Carrie Hunt, et al.. ImaGiNe-S: Imaging Guided Needle Simulation. <i>Eurographics 2009 &#8211; Medical Prize<\/i>, 2009, Munich, Germany. pp.5-8. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00849195v1\">&#x27E8;hal-00849195&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">We present an integrated system for training visceral needle puncture procedures. Our aim is to prov &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-00849195\/file\/Imagines.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-00849195\/file\/Imagines.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-00849195\/file\/Imagines.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-00849195v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-00849194\/file\/hal-00849194.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5101917\/thumb\/little\" alt=\"hal-00849194.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Franck P Vidal, Pierre-Frederic Villard, Richard Holbrey, Nigel W John, Fernando Bello, et al.. Developing An Immersive Ultrasound Guided Needle Puncture Simulator. <i>Proceeding of Medicine Meets Virtual Reality 17 (MMVR17)<\/i>, 2009, Long Beach, California, United States. pp.398-400. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00849194v1\">&#x27E8;hal-00849194&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">We present an integrated system for training ultrasound guided needle puncture. Our aim is to provid &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-00849194\/file\/VIDAL_F_2.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-00849194\/file\/VIDAL_F_2.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-00849194\/file\/VIDAL_F_2.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-00849194v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-00849198\/file\/hal-00849198.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5101927\/thumb\/little\" alt=\"hal-00849198.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Anne-Laure Didier, Pierre-Fr\u00e9d\u00e9ric Villard, Jacques Saad\u00e9, Jean-Michel Moreau, Micha\u00ebl Beuve, et al.. A chest wall model based on rib kinematics. <i>6th International Conference on Biomedical Visualization<\/i>, 2009, Barcelona, Spain. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00849198v1\">&#x27E8;hal-00849198&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">The success of radiotherapy treatment could be compromised by motion. Lung tumours are particularly  &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-00849198\/file\/barcelona09.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-00849198\/file\/barcelona09.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-00849198\/file\/barcelona09.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-00849198v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-00849196\/file\/hal-00849196.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5101922\/thumb\/little\" alt=\"hal-00849196.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Frederic Villard, Mathieu Jacob, Derek Gould, Fernando Bello. Haptic simulation of the liver with respiratory motion.. <i>Proceeding of Medicine Meets Virtual Reality 17 (MMVR17)<\/i>, 2009, Long Beach, California, United States. pp.401-6. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00849196v1\">&#x27E8;hal-00849196&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">During a standard procedure of liver biopsy, the motion due to respira- tion may be difficult to han &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-00849196\/file\/VILLARD_P_2.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-00849196\/file\/VILLARD_P_2.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-00849196\/file\/VILLARD_P_2.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-00849196v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='SousRubrique'>Book sections<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/hal.science\/hal-00430234\/file\/hal-00430234.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5012029\/thumb\/little\" alt=\"hal-00430234.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard, Wesley Bourne, Fernando Bello. Interactive Simulation of Diaphragm Motion Through Muscle and Rib Kinematics. Nadia Magnenat-Thalmann, Jian J. Zhang, David D. Feng. <i>Recent Advances in the 3D Physiological Human<\/i>, Springer London, pp.91-103, 2009, <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.1007\/978-1-84882-565-9_6\">&#x27E8;10.1007\/978-1-84882-565-9_6&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/hal.science\/hal-00430234v1\">&#x27E8;hal-00430234&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Modelling of diaphragm behaviour is of relevance to a number of clini cal procedures such as lung ca &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/hal.science\/hal-00430234\/file\/3DPH.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/hal.science\/hal-00430234\/file\/3DPH.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/hal.science\/hal-00430234\/file\/3DPH.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/hal.science\/hal-00430234v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-00849192\/file\/hal-00849192.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5101907\/thumb\/little\" alt=\"hal-00849192.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Derek A. Gould, Fernando Bello, Nigel John, Sheena Johnson, Carrie Hunt, et al.. Simulator development in vascular and visceral interventions. A. Branchereau and M. Jacobs. <i>Innovative cardiovascular procedures<\/i>, Simulator development in vascular and visceral interventions, Edizione Minerva Medica, pp.11-28, 2009. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00849192v1\">&#x27E8;hal-00849192&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Throughout the practice of procedural medicine, there is an unrelenting shift to management by less  &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-00849192\/file\/FINAL_EVC_Feb2009.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-00849192\/file\/FINAL_EVC_Feb2009.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-00849192\/file\/FINAL_EVC_Feb2009.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-00849192v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='Rubrique'>2008<\/p>\n<p class='SousRubrique'>Conference papers<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-00849191\/file\/hal-00849191.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5101904\/thumb\/little\" alt=\"hal-00849191.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Chi Ying, Peter Cashman M.M., O.M. Damrah, Vincent Luboz, Pierre-Frederic Villard, et al.. Building soft-tissue constraints through a mass spring system for liver surgical simulations. <i>Proceedings of European Society for Magnetic Resonance in Medicine and Biology (ESMRMB)<\/i>, 2008, Valence,, Spain. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00849191v1\">&#x27E8;hal-00849191&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Constraint between soft tissues (derived from MRI\/CT image datasets) is a special type of intra-coll &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-00849191\/file\/ESMRMB2008.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-00849191\/file\/ESMRMB2008.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-00849191\/file\/ESMRMB2008.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-00849191v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-00849271\/file\/hal-00849271.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5102058\/thumb\/little\" alt=\"hal-00849271.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Derek A. Gould, Franck P. Vidal, Chris Hughes, Pierre-Frederic Villard, Vinent Luboz, et al.. Interventional radiology core skills simulation: mid term status of the CR\u0131t aIVE projects. <i>Cardiovascular and Interventional Radiological Society of Europe 2008 (CIRCE 2008)<\/i>, 2008, Copenhagen, Denmark. pp.P~130. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00849271v1\">&#x27E8;hal-00849271&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">The aim of this project is to develop Interventional Radiology (IR) simulator models for core skills &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-00849271\/file\/CIRSE2008-P-130.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-00849271\/file\/CIRSE2008-P-130.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-00849271\/file\/CIRSE2008-P-130.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-00849271v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-00849197\/file\/hal-00849197.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5101924\/thumb\/little\" alt=\"hal-00849197.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard, Wesley Bourne, Fernando Bello. Modelling Organ Deformation Using Mass-Springs and Tensional Integrity. <i>ISBMS<\/i>, 2008, London, United Kingdom. pp.221-226. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00849197v1\">&#x27E8;hal-00849197&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">In this paper we propose a new framework for deformation modelling based on a combined mass spring a &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-00849197\/file\/isbms08.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-00849197\/file\/isbms08.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-00849197\/file\/isbms08.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-00849197v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-00849186\/file\/hal-00849186.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5101902\/thumb\/little\" alt=\"hal-00849186.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Frederic Villard, Wesley Bourne, Fernando Bello. Real-Time Simulation of Diaphragm Motion Through Muscle and Rib Kinematics. <i>Proceedings of he Workshop on 3D Physiological Human (3DPH)<\/i>, 2008, Zermatt, Switzerland. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00849186v1\">&#x27E8;hal-00849186&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Modelling of diaphragm behaviour is of relevance to a number of clini- cal procedures such as lung c &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-00849186\/file\/3DPH.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-00849186\/file\/3DPH.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-00849186\/file\/3DPH.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-00849186v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-00849272\/file\/hal-00849272.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5102062\/thumb\/little\" alt=\"hal-00849272.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Frederic Villard, Peter Littler, V. Gough, Franck P. Vidal, Chris Hughes, et al.. Improving the modeling of Medical Imaging data for simulation. <i>Proceedings of United Kingdom Radiology Congress (UKRC)<\/i>, 2008, Birmingham, United Kingdom. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00849272v1\">&#x27E8;hal-00849272&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">PURPOSE-MATERIALS: To use patient imaging as the basis for developing virtual environments (VE). BAC &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-00849272\/file\/UKRC.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-00849272\/file\/UKRC.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-00849272\/file\/UKRC.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-00849272v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='Rubrique'>2007<\/p>\n<p class='SousRubrique'>Journal articles<\/p>\n<dl class='NoticeRes'>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">David Sarrut, Bertrand Delhay, Pierre-Fr\u00e9d\u00e9ric Villard, Vlad Boldea, Michael Beuve, et al.. A Comparison Framework for Breathing Motion Estimation Methods From 4-D Imaging. <i>IEEE Transactions on Medical Imaging<\/i>, 2007, 26 (12), pp.1636-1648. <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.1109\/TMI.2007.901006\">&#x27E8;10.1109\/TMI.2007.901006&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00973183v1\">&#x27E8;hal-00973183&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Motion estimation is an important issue in radia- tion therapy of moving organs. In particular, moti &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette LienBibtex\"> <a href=\"https:\/\/inria.hal.science\/hal-00973183v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/dd>\n<\/dl>\n<dl class='NoticeRes'>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Anne-Laure Didier, Pierre-Fr\u00e9d\u00e9ric Villard, Micha\u00ebl Beuve, Behzad Shariat. Mechanical role of pleura on lung motion during breathing. <i>Computer Methods in Biomechanics and Biomedical Engineering<\/i>, 2007, 10 (sup1), pp.155-156. <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.1080\/10255840701479602\">&#x27E8;10.1080\/10255840701479602&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00849199v1\">&#x27E8;hal-00849199&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Organs motions, in particular due to patient&rsquo;s breathing are crucial for the accuracy of radiotherap &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette LienBibtex\"> <a href=\"https:\/\/inria.hal.science\/hal-00849199v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/dd>\n<\/dl>\n<p class='SousRubrique'>Conference papers<\/p>\n<dl class='NoticeRes'>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Anne-Laure Didier, Pierre-Fr\u00e9d\u00e9ric Villard, Michael Beuve, B. Shariat. Mechanical role of pleura on lung motion during breathing. <i>XXXII\u00e8me Congr\u00e8s Annuel de la SOCI\u00c9T\u00c9 DE BIOM\u00c9CANIQUE<\/i>, Aug 2007, Lyon, France. <a target=\"_blank\" href=\"https:\/\/hal.science\/hal-01486866v1\">&#x27E8;hal-01486866&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Organ motions, in particular due to patient\u2019s breathing, are crucial for the accuracy of radiother &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette LienBibtex\"> <a href=\"https:\/\/hal.science\/hal-01486866v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-00849200\/file\/hal-00849200.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5101930\/thumb\/little\" alt=\"hal-00849200.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Anne-Laure Didier, Pierre-Fr\u00e9d\u00e9ric Villard, Jean-Yves Bayle, Micha\u00ebl Beuve, Behzad Shariat. Breathing Thorax Simulation based on Pleura Behaviour and Rib Kinematics. <i>Information Visualisation &#8211; MediVis<\/i>, 2007, Zurich, Switzerland. pp.35&#8211;40. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00849200v1\">&#x27E8;hal-00849200&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">To monitor a lung mechanical model and then predict tumour motion we proposed a approach based on th &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-00849200\/file\/zurich07.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-00849200\/file\/zurich07.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-00849200\/file\/zurich07.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-00849200v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='Rubrique'>2006<\/p>\n<p class='SousRubrique'>Conference papers<\/p>\n<dl class='NoticeRes'>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard, Micha\u00ebl Beuve, B. Shariat. Lung 4D CT scan Generation. <i>2nd Workshop on Computer Assisted Diagnosis and Surgery<\/i>, Mar 2006, Santiago (Chile), Chile. pp.47-50. <a target=\"_blank\" href=\"https:\/\/hal.science\/hal-01549114v1\">&#x27E8;hal-01549114&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Cancer ionising treatments need accurate tumour targeting, which is difficult for lung cancer due to &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette LienBibtex\"> <a href=\"https:\/\/hal.science\/hal-01549114v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-00849203\/file\/hal-00849203.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5101938\/thumb\/little\" alt=\"hal-00849203.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard, Micha\u00ebl Beuve, Behzad Shariat. An Approach to Convert 4D Geometry into a 4D CT Scan. <i>WSCG (Winter School of Computer Graphics)<\/i>, 2006, Plzen, Czech Republic. pp.163&#8211;170. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00849203v1\">&#x27E8;hal-00849203&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">We present an approach to convert the geometrical data produced by a physical simulation of soft-org &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-00849203\/file\/WSCG.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-00849203\/file\/WSCG.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-00849203\/file\/WSCG.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-00849203v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-00849202\/file\/hal-00849202.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5101936\/thumb\/little\" alt=\"hal-00849202.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard, Micha\u00ebl Beuve, Behzad Shariat. 4D CT scan Generation of Lung from Physical Simulation of Pulmonary Motion. <i>2nd Workshop on Computer Assisted Diagnosis and Surgery<\/i>, 2006, Santiago, Chile. pp.47&#8211;50. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00849202v1\">&#x27E8;hal-00849202&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Cancer ionising treatments need accurate tumour targeting, which is difficult for lung cancer due to &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-00849202\/file\/chile.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-00849202\/file\/chile.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-00849202\/file\/chile.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-00849202v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-00849201\/file\/hal-00849201.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5101934\/thumb\/little\" alt=\"hal-00849201.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard, Gabriel Fournier, Micha\u00ebl Beuve, Behzad Shariat. Visualisation of Physical Lung Simulation: an Interactive Application to Assist Physicians. <i>Information Visualisation<\/i>, 2006, London, United Kingdom. pp.65&#8211;70. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00849201v1\">&#x27E8;hal-00849201&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Radiation therapy of cancer necessitates accurate tumour targeting. Unfortunately, during the treatm &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-00849201\/file\/London06.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-00849201\/file\/London06.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-00849201\/file\/London06.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-00849201v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='SousRubrique'>Proceedings<\/p>\n<dl class='NoticeRes'>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard, Gabriel Fournier, Micha\u00ebl Beuve, B. Shariat. Visualisation de Simulation Biom\u00e9canique : Application au Poumon. <i>13\u00e8mes journ\u00e9es du groupe de travail Animation et Simulation, Toulouse, p. 114-119<\/i>, 2006. <a target=\"_blank\" href=\"https:\/\/hal.science\/hal-01549130v1\">&#x27E8;hal-01549130&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Visualisation de Simulation Biom\u00e9canique : Application au Poumon<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette LienBibtex\"> <a href=\"https:\/\/hal.science\/hal-01549130v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/dd>\n<\/dl>\n<p class='SousRubrique'>Theses<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/theses.hal.science\/tel-00858260\/file\/Screen_shot_2013-09-05_at_09.52.16.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5118842\/thumb\/little\" alt=\"Screen_shot_2013-09-05_at_09.52.16.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard. Simulation du Mouvement Pulmonaire pour un Traitement Oncologique. Traitement du signal et de l&rsquo;image [eess.SP]. Universit\u00e9 Claude Bernard &#8211; Lyon I, 2006. Fran\u00e7ais. <a target=\"_blank\" href=\"https:\/\/www.theses.fr\/\">&#x27E8;NNT : &#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/theses.hal.science\/tel-00858260v1\">&#x27E8;tel-00858260&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">The aim of this thesis is to improve lung cancer treatment by radiotherapy or hadrontherapy. We focu &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/theses.hal.science\/tel-00858260\/file\/these.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/theses.hal.science\/tel-00858260\/file\/these.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/theses.hal.science\/tel-00858260\/file\/these.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/theses.hal.science\/tel-00858260v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='Rubrique'>2005<\/p>\n<p class='SousRubrique'>Conference papers<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-00849205\/file\/hal-00849205.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5101943\/thumb\/little\" alt=\"hal-00849205.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard, Vincent Baudet, Micha\u00ebl Beuve, Behzad Shariat, Fabrice Jaillet. Resolution of Non-Linear Problems In Realistic-Lung-Inflating Simulation with Finite Element Method.. <i>10th workshop on Heavy Charged Particles in Biology and Medicine. Oropa (Italy)<\/i>, 2005, Oropa, Italy. pp.184&#8211;187. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00849205v1\">&#x27E8;hal-00849205&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Hadrontherapy treatment needs accurate tumour targeting, which is difficult for lung cancer due to b &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-00849205\/file\/hcpbm2005.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-00849205\/file\/hcpbm2005.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-00849205\/file\/hcpbm2005.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-00849205v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-00849204\/file\/hal-00849204.jpg\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5101940\/thumb\/little\" alt=\"hal-00849204.jpg\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard, Micha\u00ebl Beuve, Behzad Shariat, Vincent Baudet, Fabrice Jaillet. Simulation of Lung Behaviour with Finite Elements : Influence of Bio-Mechanical Parameters. <i>Information Visualisation<\/i>, 2005, London, United Kingdom. pp.9&#8211;14. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00849204v1\">&#x27E8;hal-00849204&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Motivated by medical needs, we propose to simulate lung deformation and motion during respiration to &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-00849204\/file\/London05.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-00849204\/file\/London05.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-00849204\/file\/London05.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-00849204v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='SousRubrique'>Proceedings<\/p>\n<dl class='NoticeRes'>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard, Vincent Baudet, Micha\u00ebl Beuve, Fabrice Jaillet, B. Shariat. Mod\u00e9lisation d&rsquo;Organes en Mouvement, Etude des Param\u00e8tres M\u00e9caniques. <i>12\u00e8mes journ\u00e9es du groupe de travail Animation et Simulation, Lille, p. 81-92<\/i>, 2005. <a target=\"_blank\" href=\"https:\/\/hal.science\/hal-01531212v1\">&#x27E8;hal-01531212&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette LienBibtex\"> <a href=\"https:\/\/hal.science\/hal-01531212v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/dd>\n<\/dl>\n<p class='Rubrique'>2004<\/p>\n<p class='SousRubrique'>Conference papers<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-00849206\/file\/hal-00849206.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5101946\/thumb\/little\" alt=\"hal-00849206.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard, Micha\u00ebl Beuve, Behzad Shariat, Vincent Baudet, Fabrice Jaillet. Lung Mesh Generation to Simulate Breathing Motion with a Finite Element Method. <i>Information Visualisation<\/i>, 2004, London, United Kingdom. pp.194&#8211;199. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00849206v1\">&#x27E8;hal-00849206&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Numerical modelling of lung behaviour during the respiration cycle is a difficult challenge due to i &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-00849206\/file\/London04.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-00849206\/file\/London04.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-00849206\/file\/London04.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-00849206v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='Rubrique'>2003<\/p>\n<p class='SousRubrique'>Conference papers<\/p>\n<dl class='NoticeRes'>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Vincent Baudet, Pierre-Fr\u00e9d\u00e9ric Villard, Micha\u00ebl Beuve, B. Shariat. Modelisation of Target Motion and Organ Deformation : Lung Tumour Tracking. <i>9th workshop on Heavy Charged Particles in Biology and Medicine (HCPBM 2003)<\/i>, Oct 2003, Lyon, France. pp.37-72. <a target=\"_blank\" href=\"https:\/\/hal.science\/hal-01514837v1\">&#x27E8;hal-01514837&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette LienBibtex\"> <a href=\"https:\/\/hal.science\/hal-01514837v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-00849210\/file\/hal-00849210.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5101969\/thumb\/little\" alt=\"hal-00849210.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard, Micha\u00ebl Beuve, Behzad Shariat, Vincent Baudet, Fabrice Jaillet, et al.. Continous Media Mechanics simulation of Lung Motion.. <i>9th workshop on Heavy Charged Particles in Biology and Medicine<\/i>, 2003, Lyon, France. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00849210v1\">&#x27E8;hal-00849210&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">The purpose of this investigation is to simulate and predict the behavior of lungs during cancer tre &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-00849210\/file\/HCPBM2003_1.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-00849210\/file\/HCPBM2003_1.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-00849210\/file\/HCPBM2003_1.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-00849210v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-00849207\/file\/hal-00849207.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5101949\/thumb\/little\" alt=\"hal-00849207.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Vincent Baudet, Pierre-Fr\u00e9d\u00e9ric Villard, Fabrice Jaillet, Micha\u00ebl Beuve, Behzad Shariat. Towards Accurate Tumour Tracking in Lungs. <i>Information Visualisation<\/i>, 2003, London, United Kingdom. pp.338&#8211;343. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00849207v1\">&#x27E8;hal-00849207&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Motivated by radiotherapy and hadrontherapy improvement, we consider in a first step the potential o &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-00849207\/file\/London03.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-00849207\/file\/London03.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-00849207\/file\/London03.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-00849207v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-00849209\/file\/hal-00849209.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5101962\/thumb\/little\" alt=\"hal-00849209.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Vincent Baudet, Fabrice Jaillet, Behzad Shariat, Pierre-Fr\u00e9d\u00e9ric Villard, Micha\u00ebl Beuve, et al.. Approach to Simulate Tumour Displacements in Lungs with Mass Spring System.. <i>9th workshop on Heavy Charged Particles in Biology and Medicine<\/i>, 2003, Lyon, France. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00849209v1\">&#x27E8;hal-00849209&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Our team gathers medical, physical and computer science researchers to develop a personalised simula &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-00849209\/file\/HCPBM2003_2.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-00849209\/file\/HCPBM2003_2.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-00849209\/file\/HCPBM2003_2.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-00849209v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-00849208\/file\/hal-00849208.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5101956\/thumb\/little\" alt=\"hal-00849208.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard, Vincent Baudet. Mod\u00e9lisation comportementale du poumon pour l&rsquo;am\u00e9lioration des traitements oncologiques. <i>10\u00e8me Journ\u00e9e des jeunes chercheurs, SFGBM<\/i>, 2003, Nantes, France. pp.182&#8211;183. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00849208v1\">&#x27E8;hal-00849208&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Curative treatment of lung cancer is difficult because of organ motions. A treatment improvement con &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-00849208\/file\/Article_Nantes.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-00849208\/file\/Article_Nantes.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-00849208\/file\/Article_Nantes.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-00849208v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='Rubrique'>2001<\/p>\n<p class='SousRubrique'>Conference papers<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-00849343\/file\/hal-00849343.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5102205\/thumb\/little\" alt=\"hal-00849343.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">St\u00e9phane Albin, Pierre-Fr\u00e9d\u00e9ric Villard, Bernard P\u00e9roche. Sources directionnelles en trac\u00e9 de rayons. <i>Journ\u00e9es AFIG 2001<\/i>, 2001, Limoges, France. pp.225-234. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00849343v1\">&#x27E8;hal-00849343&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Ce document traite de la prise en compte du caract\u00e8re directionnel d&rsquo;une source lumineuse. Apr\u00e8s u &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-00849343\/file\/Afig2001.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-00849343\/file\/Afig2001.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-00849343\/file\/Afig2001.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-00849343v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl>\n<p class='SousRubrique'>Master thesis<\/p>\n<dl class='NoticeResAvecVignette'>\n<dd class='Vignette'> <a href=\"https:\/\/inria.hal.science\/hal-00849273\/file\/hal-00849273.png\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/5102066\/thumb\/little\" alt=\"hal-00849273.png\" \/><\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">ref_biblio<\/dt>\n<dd class=\"ValeurResAvecVignette ref_biblio\">Pierre-Fr\u00e9d\u00e9ric Villard. Modelisation de Nouvelles Sources Lumineuses pour le Lancer de Rayons. Synth\u00e8se d&rsquo;image et r\u00e9alit\u00e9 virtuelle [cs.GR]. 2001. <a target=\"_blank\" href=\"https:\/\/inria.hal.science\/hal-00849273v1\">&#x27E8;hal-00849273&#x27E9;<\/a><\/dd>\n<dt class=\"ChampResAvecVignette\">Resume_court<\/dt>\n<dd class=\"ValeurResAvecVignette Debut_du_resume\">Ces derni\u00e8res ann\u00e9es, de nombreuses m\u00e9thodes ont \u00e9t\u00e9 propos\u00e9es pour caract\u00e9riser la lumi\u00e8re  &#8230;..<\/dd>\n<dt class=\"ChampResAvecVignette\">Acc\u00e8s au texte int\u00e9gral et bibtex<\/dt>\n<dd class=\"ValeurResAvecVignette Fichier_joint\"> <a href=\"https:\/\/inria.hal.science\/hal-00849273\/file\/Rapport_DEA.pdf\"  target=\"_blank\"> <img decoding=\"async\" alt=\"https:\/\/inria.hal.science\/hal-00849273\/file\/Rapport_DEA.pdf\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_pdf.png\" border=\"0\" title=\"https:\/\/inria.hal.science\/hal-00849273\/file\/Rapport_DEA.pdf\" \/><\/a> <span class=\"LienBibtexACoteFulltext\"><a href=\"https:\/\/inria.hal.science\/hal-00849273v1\/bibtex\" target=\"_self\"> <img decoding=\"async\" alt=\"BibTex\" src=\"https:\/\/haltools.inria.fr\/images\/Haltools_bibtex3.png\" border=\"0\"  title=\"BibTex\" \/><\/a> <\/span><\/dd>\n<\/dl><\/div>\n<p> <\/body> <\/html> <\/p>\n","protected":false},"excerpt":{"rendered":"<p>               var _paq = _paq || [];   _paq.push([&lsquo;trackPageView&rsquo;]);   _paq.push([&lsquo;enableLinkTracking&rsquo;]);   (function() {     var u=\u00a0\u00bb\/\/piwik.inria.fr\/\u00a0\u00bb;     _paq.push([&lsquo;setTrackerUrl&rsquo;, u+&rsquo;piwik.php&rsquo;]);     _paq.push([&lsquo;setSiteId&rsquo;, 25]);     var d=document, g=d.createElement(&lsquo;script&rsquo;), s=d.getElementsByTagName(&lsquo;script&rsquo;)[0];     g.type=&rsquo;text\/javascript&rsquo;; g.async=true; g.defer=true; g.src=u+&rsquo;piwik.js&rsquo;; s.parentNode.insertBefore(g,s);   })();  <\/p>\n<p><img decoding=\"async\" src=\"\/\/piwik.inria.fr\/piwik.php?idsite=25\" style=\"border:0;\" alt=\"\" \/><\/p>\n<p>   Publications HAL de  pierre-frederic, Villard   <\/p>\n<p class='Rubrique'>2025<\/p>\n<p class='SousRubrique'>Journal articles<\/p>\n<p> <a href=\"https:\/\/hal.science\/hal-05229346\/file\/Screenshot%202025-08-29%20at%2009.31.15.jpg\" target=\"_blank\"> <img decoding=\"async\" class=\"VignetteImg\" border=\"0\" src=\"https:\/\/thumb.ccsd.cnrs.fr\/9747539\/thumb\/little\" alt=\"Screenshot%202025-08-29%20at%2009.31.15.jpg\" \/><\/a><br \/>\nref_biblio<br \/>\nFranck Vidal, Shaghayegh Afshari, Sharif Ahmed, Alberto Albiol, Francisco Albiol, et al.. X-ray simulations with gVXR in education, digital twining, experiment planning, and data analysis. <i>Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms<\/i>, 2025, 568, pp.165804. <a target=\"_blank\" href=\"https:\/\/dx.doi.org\/10.1016\/j.nimb.2025.165804\">&#x27E8;10.1016\/j.nimb.2025.165804&#x27E9;<\/a>. <a target=\"_blank\" href=\"https:\/\/hal.science\/hal-05229346v1\">&#x27E8;hal-05229346&#x27E9;<\/a> <\/p>\n","protected":false},"author":5,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"page-fullwidth.php","meta":{"footnotes":""},"class_list":["post-13","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/members.loria.fr\/PFVillard\/wp-json\/wp\/v2\/pages\/13","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/members.loria.fr\/PFVillard\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/members.loria.fr\/PFVillard\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/members.loria.fr\/PFVillard\/wp-json\/wp\/v2\/users\/5"}],"replies":[{"embeddable":true,"href":"https:\/\/members.loria.fr\/PFVillard\/wp-json\/wp\/v2\/comments?post=13"}],"version-history":[{"count":25,"href":"https:\/\/members.loria.fr\/PFVillard\/wp-json\/wp\/v2\/pages\/13\/revisions"}],"predecessor-version":[{"id":311,"href":"https:\/\/members.loria.fr\/PFVillard\/wp-json\/wp\/v2\/pages\/13\/revisions\/311"}],"wp:attachment":[{"href":"https:\/\/members.loria.fr\/PFVillard\/wp-json\/wp\/v2\/media?parent=13"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}