Nombre de documents

15

CV de Maya de Buhan


Pré-publication, Document de travail5 documents

  • Maya De Buhan, Marion Darbas. Numerical resolution of an electromagnetic inverse medium problem at fixed frequency. 2016. <hal-01374490>
  • Lucie Baudouin, Maya De Buhan, Sylvain Ervedoza. CONVERGENT ALGORITHM BASED ON CARLEMAN ESTIMATES FOR THE RECOVERY OF A POTENTIAL IN THE WAVE EQUATION. Rapport LAAS n° 16229. 2016. <hal-01352772>
  • Pierre-Henri Tournier, Ioannis Aliferis, Marcella Bonazzoli, Maya De Buhan, Marion Darbas, et al.. Microwave Tomographic Imaging of Cerebrovascular Accidents by Using High-Performance Computing. 2016. <hal-01343687>
  • Pierre-Henri Tournier, Marcella Bonazzoli, Victorita Dolean, Francesca Rapetti, Frédéric Hecht, et al.. Numerical Modeling and High Speed Parallel Computing: New Perspectives for Tomographic Microwave Imaging for Brain Stroke Detection and Monitoring. 2016. <hal-01356092>
  • Maya De Buhan, Pascal Frey. Modelling and simulation of the nonlinear viscoelastic behavior of brain structures on complex domains. 2010. <hal-00472813>

Article dans une revue9 documents

  • Maya De Buhan, Charles Dapogny, Pascal Frey, Chiara Nardoni. An optimization method for elastic shape matching. Comptes Rendus Mathématique, Elsevier Masson, 2016, 354 (8), pp.783-787. <10.1016/j.crma.2016.05.007>. <hal-01280621v2>
  • Maya De Buhan, Antoine Gloria, Patrick Le Tallec, Marina Vidrascu. Reconstruction of a constitutive law for rubber from in silico experiments using Ogden's laws. International Journal of Solids and Structures, Elsevier, 2015, pp.16. <10.1016/j.ijsolstr.2015.02.026>. <hal-00933240>
  • Maya De Buhan, Marie Kray. A new approach to solve the inverse scattering problem for waves: combining the TRAC and the adaptive inversion methods. Inverse Problems, IOP Publishing, 2013, 29 (8), http://iopscience.iop.org/0266-5611/29/8/085009/pdf/0266-5611_29_8_085009.pdf. <10.1088/0266-5611/29/8/085009>. <hal-00799110v2>
  • Lucie Baudouin, Maya De Buhan, Sylvain Ervedoza. Global Carleman estimates for waves and applications.. Communications in Partial Differential Equations, Taylor & Francis, 2013, 38 (5), pp. 823-859. <hal-00633562v2>
  • Dominique Chapelle, Nicolae Cîndea, Maya De Buhan, Philippe Moireau. Exponential convergence of an observer based on partial field measurements for the wave equation. Mathematical Problems in Engineering, Hindawi Publishing Corporation, 2012, 2012, pp.12. <10.1155/2012/581053>. <inria-00619504v2>
  • Maya De Buhan, Pascal Frey. A generalized model of non-linear viscoelasticity: numerical issues and applications. International Journal for Numerical Methods in Engineering, Wiley, 2011, 86 (13), pp.1544--1557. <10.1002/nme.3115>. <hal-00711177>
  • Maya De Buhan, Axel Osses. Logarithmic stability in determination of a 3D viscoelastic coefficient and a numerical example. Inverse Problems, IOP Publishing, 2010, 26, pp.95006. <10.1088/0266-5611/26/9/095006>. <hal-01116979>
  • Maya De Buhan, Axel Osses. Un résultat de stabilité pour la récupération d'un paramètre du système de la viscoélasticité 3D. C. R. Math. Acad. Sci. Paris, Académie des Sciences / Elsevier Masson SAS, 2009, 347 (23-24), pp.1373--1378. <hal-00713303>
  • Pierre-Henri Maire, Maya De Buhan, Aaron Diaz, Cécile Dobrzynski, Gilles Kluth, et al.. A cell-centered Arbitrary Lagrangian Eulerian (ALE) method for multi-material compressible flows. ESAIM: Proceedings, EDP Sciences, 2008, 24, pp.1-13. <hal-00353792>

Thèse1 document

  • Maya De Buhan. Problèmes inverses et simulations numériques en viscoélasticité 3D.. Mathématiques [math]. Université Pierre et Marie Curie - Paris VI, 2010. Français. <tel-00552111>