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Identifiants chercheur

  • IdHAL : pierre-navaro
Nombre de documents

4

Pierre Navaro


My background :

I am currently working as Scientific Software Development Engineer in the Applied Mathematics group of the Institut de Recherche Mathématique Avancée at Strasbourg University. I work in Partial differential equations and control theory group and TONUS: INRIA project about TOkamak NUmerical Simulations. 

Research Interests :

  • General Research interests:
  • High Performance Computing.
  • Numerical Computation of Plasma Physics.
  • Computationnal Fluid Dynamics and Aeroacoustics
      • Past research projects: 
  • Wind Park Noise Computation with the Gaussian Beam Approach (Ray tracing)
  • Aeroacoustic modelling with a compressible Particle In Cell method
  • Parallelization of Vortex Methods 
  • PIC method for Maxwell-Vlasov equations 
      • Current research projects: 

Personal Information 

I was born and raised in Normandy in the Northwest of France. I studied in Rouen University and Le Havre University. Now I live in Strasbourg in the East of France (Alsace). 

In July 2002 I received my Ph. D. in Mechanical Engineering from Le Havre University under the guidance of Serge Huberson in Laboratoire de Mecanique. Prior to my doctoral work, I received a MS in Mechanical Engineering from Rouen University. 

Curriculum vitae (html,pdf). 

Thèse soutenue le 5 juillet 2002  
Aéroacoustique numérique d'un écoulement tourbillonnaire


Article dans une revue4 documents

  • Adnane Hamiaz, Michel Mehrenberger, Aurore Back, Pierre Navaro. Guiding center simulations on curvilinear grids. ESAIM: Proceedings, EDP Sciences, 2015, 〈10.1051/proc/201653007〉. 〈hal-00908500v3〉
  • Nicolas Crouseilles, Pierre Navaro, Eric Sonnendrücker. Charge-conserving grid based methods for the Vlasov–Maxwell equations. Comptes Rendus Mécanique, Elsevier Masson, 2014, 342, pp.636 - 646. 〈10.1016/j.crme.2014.06.012〉. 〈hal-01090678〉
  • Emmanuel Audusse, Olivier Delestre, Le Minh-Hoang, Mathias Masson-Fauchier, Pierre Navaro, et al.. Parallelization of a relaxation scheme modelling the bedload transport of sediments in shallow water flow. ESAIM: Proc., 2013, 43, pp.80-94. 〈10.1051/proc/201343005〉. 〈hal-00840200〉
  • Benjamin Boutin, Erwan Deriaz, Philippe Hoch, Pierre Navaro. Extension of ALE methodology to unstructured conical meshes. ESAIM: Proceedings, EDP Sciences, 2011, 32, pp.32-55. 〈10.1051/proc/2011011〉. 〈hal-00777271〉