Frédéric ALAUZET 36 years old French Married, 2 children 85, Morgan Avenue PO Box 7204 Mississippi State, MS 39762, USA Tel. : +1 662-325-7722 Mail : [email protected] http ://www-roc.inria.fr/who/Frederic.Alauzet/
Researcher Scientist
Professional experience2005- ... Research Scientist, INRIA EPI Gamma3, Paris-Rocquencourt, France.
2012-2013 Visiting Research Professor, HPC-CAVS SimCenter, Mississippi State University, Stark-ville, MS, USA.
2004-2005 PostDoctorate Associate, SCOREC Dpt, Rensselaer Polytechnic Institute, Troy, NY, USA. Education
2012 Habilitation à Diriger des Recherches in Applied Mathematics and Applications of Mathe-matics, Université Pierre et Marie Curie, France.
Date awarded : June 28, 2012.
Title :Contributions to numerical methods for mesh adaptation in CFD. 2003 Ph.D. in Applied Mathematics, Université Montpellier II, France.
Date awarded : October 2, 2003.
Title :Anisotropic mesh adaptation in 3D. Application to unsteady simulations in CFD. Advisor : Prof. Bijan Mohammadi.
2000 M.S. in Mathematics, Université Montpellier II, Montpellier, France. 1998 B.S. in Mathematics, Université Montpellier II, Montpellier, France. Skills
Mathematics Finite Volume, Finite Element and Finite Difference methods for PDE resolution. Tetrahedral meshing, boundary layer meshing and anisotropic mesh adaptation. Moving mesh methods.
A priorianda posteriorierror estimates and metric space theory. Adjoint theory, goal-oriented error estimate and shape optimization. Level set methods.
Physics Fluid dynamics : compressible and incompressible flows, multi-fluids flows. Sonic boom modeling.
Computer Science Fortran 77/90, C/C++, shell script and HTML. Parallel computing : multi-threading and MPI. Language French (native) and English.
Teaching (MSc level and thematic school)
2005- ... Numerical simulation in complex geometries. MSc course at École Centrale de Paris, Châtenay-Malabry, France
2010 Metric-based anisotropic mesh adaptation, CEA Summer school on "numerical analysis", CEA Cadarache, France
2007 High-order methods and mesh adaptation, Cemracs Summer school on "Pre and post processing in scientific computing", CIRM, Luminy, France
2007 Metrics and anisotropic mesh adaptation based on an interpolation error, 5th European Finite Element Summer school on "more efficiency in finite element methods", CIRM, Luminy, France 2003 3D unstructured mesh adaptation. Application to unsteady problems in CFD, CEA Summer
school on "numerical analysis", Saint-Lambert-des-Bois, France
2003 Mesh adaptation for CFD, CEA-EDF-INRIA Spring school on applied Non-Linear Problems, INRIA Rocquencourt, France
Funding
2011-2014 EADS Fondation Grant.
Advanced numerical methods for the simulation of moving geometry problem. 2009-2011 Dassault Aviation research contract.
Analysis of mesh adaptive scheme for full aircraft viscous transonic flows. 2008-2009 Dassault Aviation research contract.
Analyzing anisotropic mesh adaptation scheme for full aircraft inviscid transonic flows. 2006-2007 INRIA cooperative research action LNM coordinator.
Partners : INRIA, UPMC Paris VI, Université d’Orsay, CNAM Paris. Combining efficiently mesh adaptation techniques and level set methods.
2005-2008 HISAC (HIghSpeed AirCraft) European Projectcoordinated by Dassault-Aviation. Studying the technical feasibility of an environmentally compliant supersonic small size transport aircraft.
2002-2003 "Comité d’Orientation avion Supersonique" Grant.
Studying the impact of the optimization of supersonic business jet nose on sonic boom. Supervised Students and PostDoctorate
2012-... N. Barral, Ph.D., 100%,Advanced meshing methods for problems with moving geometries 2012-... V. Menier, Ph.D., 50%,Adaptive methods for high-fidelity prediction of viscous phenomena 2010-... E. Mbinky, Ph.D., 50%,Anisotropic mesh adaptation for very-high order numerical schemes 2010-... A. Carabias, Ph.D., 50%,3rd order numerical scheme and its application to adaptive meshes 2008-2011 A. Belme, Ph.D., 50%,Unsteady aerodynamics and adjoint methods
2007-2010 G. Olivier, Ph.D., 100%,Anisotropic mesh adaptation for CFD moving geometries simulations 2006-2007 N. Nemitz, PostDoc, 25%,Finite elements models for the Level Set method
2006-2007 L. Boulaajine, PostDoc, 100%,Accurate capturing of discontinuities with mesh adaptation 2005-2008 A. Loseille, Ph.D., 100%,Multi-scale and goal-oriented anisotropic mesh adaptation for CFD 2004-2007 D. Guegan, Ph.D., 50%,Numerical modeling of 3D unsteady bi-fluid flows with mesh adaptation 2005-2006 M. Mehrenberger, PostDoc, 100%Matrix-free conservative interpolation on unstructured meshes Professional activities and responsibilities
2012 Co-organizer (with A. Loseille) of SymposiumMesh generation and adaptation for industrial appli-cationsat the ECCOMAS 2012 international congress, Vienna, Austria
2009-... Member of the SIAM-GAMNI committee : a thematic group promoting relations between academy and industry in numerical methods
2009-... Member of the evaluation committee of Aeronautics and Acoustics Department (DSNA) at ONERA 2009 Member of the INRIA young researcher recruitment committee
2007 Organizer of the International Tetrahedron Workshop II on tetrahedral mesh generation and mesh adaptation, October 17-19, INRIA Rocquencourt, France (with P. Frey and P.-L. George)
Peer reviewer : Applied Mathematics and Computation, Computers and Fluids, ESAIM Proc., Fluid Dynamics & Materials Processing, Int. J. CFD, Int. J. Numer. Meth. Fluids, Int. J. Numer. Meth. Engng, International Meshing Roundtable, J. Comp. Phys., Journal of Scientific Computing, Ocean Engineering, SIAM Journal on Computing, SIAM Journal on Scientific Computing.
Bibliography
Papers in Refereed Journals
[1] A. Belme, A. Dervieux, and F. Alauzet. Time accurate anisotropic goal-oriented mesh adaptation for unsteady flows. J. Comp. Phys., 231 :6323–6348, 2012.
[2] F. Alauzet and O. Pironneau. Continuous and discrete adjoints to the Euler equations for fluids. Int. J. Numer. Meth. Fluids, 70 :135–157, 2012.
[3] M. Picasso, F. Alauzet, H. Borouchaki, and P.-L. George. A numerical study of some Hessian re-covery techniques on isotropic and anisotropic meshes. SIAM J. Sci. Comput., 33(3) :1058–1076, 2011.
[4] A. Loseille and F. Alauzet. Continuous mesh framework. Part II : validations and applications.SIAM J. Numer. Anal., 49(1) :61–86, 2011.
[5] A. Loseille and F. Alauzet. Continuous mesh framework. Part I : well-posed continuous interpolation error. SIAM J. Numer. Anal., 49(1) :38–60, 2011.
[6] A. Loseille, A. Dervieux, and F. Alauzet. Fully anisotropic goal-oriented mesh adaptation for 3D steady Euler equations. J. Comp. Phys., 229 :2866–2897, 2010.
[7] D. Guégan, O. Allain, A. Dervieux, and F. Alauzet. AnL∞-Lpmesh adaptive method for computing unsteady bi-fluid flows. Int. J. Numer. Meth. Engng, 84(11) :1376–1406, 2010.
[8] F. Alauzet and M. Mehrenberger. P1-conservative solution interpolation on unstructured triangular meshes. Int. J. Numer. Meth. Engng, 84(13) :1552–1588, 2010.
[9] F. Alauzet and A. Loseille. High order sonic boom modeling by adaptive methods. J. Comp. Phys., 229 :561–593, 2010.
[10] F. Alauzet. Size gradation control of anisotropic meshes. Finite Elem. Anal. Des., 46 :181–202, 2010.
[11] Y. Bourgault, M. Picasso, F. Alauzet, and A. Loseille. On the use of anisotropic error estimators for the adaptative solution of 3-D inviscid compressible flows. Int. J. Numer. Meth. Fluids, 59 :47–74, 2009.
[12] A. Dervieux, Y. Mesri, F. Alauzet, A. Loseille, L. Hascoet, and B. Koobus. Continuous mesh adap-tation models for CFD. CFD Journal, 12(2), 2008.
[13] F. Alauzet, S. Borel-Sandou, L. Daumas, A. Dervieux, Q. Dinh, S. Kleinveld, A. Loseille, Y. Mesri, and G. Rogé. Multi-model and multi-scale optimization strategies. Application to sonic boom re-duction. European Journal of Computational Mechanics, 17(1-2) :191–214, 2008.
[14] F. Alauzet. High-order method and mesh adaptation for Euler equations.Int. J. Numer. Meth. Fluids, 56 :1069–1076, 2008.
[15] F. Alauzet, P.J. Frey, P.L. George, and B. Mohammadi. 3D transient fixed point mesh adaptation for time-dependent problems : Application to CFD simulations. J. Comp. Phys., 222 :592–623, 2007. [16] F. Alauzet, X. Li, E. Seegyoung Seol, and M.S. Shephard. Parallel anisotropic 3D mesh adaptation
by mesh modification. Eng. w. Comp., 21(3) :247–258, 2006.
[17] P.J. Frey and F. Alauzet. Anisotropic mesh adaptation for CFD computations. Comput. Methods Appl. Mech. Engrg., 194(48-49) :5068–5082, 2005.
[18] F. Alauzet, P.L. George, B. Mohammadi, P.J. Frey, and H. Borouchaki. Transient fixed point based unstructured mesh adaptation. Int. J. Numer. Meth. Fluids, 43(6-7) :729–745, 2003.
Refereed short papers (CRAS notes)
[19] F. Alauzet, P.J. Frey, and B. Mohammadi. Adaptation de maillages non structurés pour des problèmes instationnaires. C.R. Acad. Sci. ParisSer. I, 303 :773–778, 2002. in French.
Refereed Conference Proceedings
[20] T. Amari, F. Delyon, F. Alauzet, P. Frey, G. Olivier, J.J. Aly, and SDO/HMI Team. On some algorithm for modeling the solar coronal magnetic field as MHD equilibrium on unstructured mesh. InProc. of the 6th International Conference of Numerical Modeling of Space Plasma Flows (ASTRONUM 2011), volume 459 ofASP Conference Series, page 189. Eds. : N.V. Pogorelov, J.A. Font, E. Audit and G.P. Zank, 2012.
[21] F. Alauzet. Efficient moving mesh technique using generalized swapping. InProceedings of the 21th International Meshing Roundtable, pages 17–37. Springer, 2012.
[22] G. Olivier and F. Alauzet. A new changing-topology ALE scheme for moving mesh unsteady simu-lations. In49th AIAA Aerospace Sciences Meeting, AIAA Paper 2011-0474, Orlando, FL, USA, Jan 2011.
[23] T. Amari, A. Canou, F. Delyon, J.J. Aly, P. Frey, F. Alauzet, and SDO/HMI Team. Reconstruction of the solar coronal magnetic field, from active region to large scale. InProceedings of the annual meeting of the French Society of Astronomy & Astrophysics, pages 389–394. Eds. : G. Alecian, K. Belkacem, R. Samadi and D. Valls-Gabaud, 2011.
[24] F. Alauzet and G. Olivier. Extension of metric-based anisotropic mesh adaptation to time-dependent problems involving moving geometries. In 49th AIAA Aerospace Sciences Meeting, AIAA Paper 2011-0896, Orlando, FL, USA, Jan 2011.
[25] F. Alauzet, A. Belme, and A. Dervieux. Anisotropic goal-oriented mesh adaptation for time de-pendent problems. In Proceedings of the 20th International Meshing Roundtable, pages 99–121. Springer, 2011.
[26] A. Loseille, A. Dervieux, and F. Alauzet. A 3D goal-oriented anisotropic mesh adaptation applied to inviscid flows in aeronautics. In48th AIAA Aerospace Sciences Meeting, AIAA Paper 2010-1067, Orlando, FL, USA, Jan 2010.
[27] F. Alauzet and A. Loseille. High-order sonic boom prediction by utilizing mesh adaptive methods. In48th AIAA Aerospace Sciences Meeting, AIAA Paper 2010-1390, Orlando, FL, USA, Jan 2010. [28] A. Loseille and F. Alauzet. Optimal 3D highly anisotropic mesh adaptation based on the continuous
mesh framework. InProceedings of the 18th International Meshing Roundtable, pages 575–594. Springer, 2009.
[29] O. Allain, D. Guégan, and F. Alauzet. Studying the impact of unstructured mesh adaptation on free surface flow simulations. In Proceedings of the ASME 28th International Conference on Ocean, Offshore and Arctic Engineering, 2009.
[30] F. Alauzet and A. Loseille. On the use of space filling curves for parallel anisotropic mesh adaptation. InProceedings of the 18th International Meshing Roundtable, pages 337–357. Springer, 2009. [31] F. Alauzet, W. Hassan, and M. Picasso. Goal oriented, anisotropic, a posteriori error estimates for the
laplace equation. InProceedings of ENUMATH 2009, the 8th European Conference on Numerical Mathematics and Advanced Applications. Springer, 2009.
[32] A. Loseille, A. Dervieux, P.J. Frey, and F. Alauzet. Achievement of global second-order mesh conver-gence for discontinuous flows with adapted unstructured meshes. In37th AIAA Computational Fluid Dynamics Conference, AIAA Paper 2007-4186, Miami, FL, USA, Jun 2007.
[33] F. Alauzet, A. Loseille, A. Dervieux, and P.J. Frey. Multi-dimensional continuous metric for mesh adaptation. InProceedings of the 15th International Meshing Roundtable, pages 191–214. Springer, 2006.
[34] P.J. Frey and F. Alauzet. Anisotropic mesh adaptation for transient flows simulations. InProceedings of the 12th International Meshing Roundtable, pages 335–348, Santa Fe, New Mexico, USA, 2003. [35] F. Alauzet, P. Frey, P.-L. George, E. Leclerc, P. Sagaut, and B. Mohammadi. 3D adaptive control and
shape design platform for unstructured meshes. In40th AIAA Aerospace Sciences Meeting, AIAA Paper 2002-0592, Reno, NV, USA, Jan 2002.
Research and Technical Reports
[36] F. Alauzet.Wolfuser guide. An edge-based Navier-Stokes flow solver based on the MEV numerical scheme. Internal report, INRIA, 2010.
[37] F. Alauzet. Interpoluser guide. solution fields interpolation from one mesh to another. Internal report, INRIA, 2010.
[38] A. Loseille and F. Alauzet. Shrimpuser guide. a fast mesh renumbering and domain partitioning method. RT-0362, INRIA, February 2009.
[39] F. Alauzet and A. Loseille. Metrixuser guide. error estimates and mesh control for anisotropic mesh adaptation. RT-0363, INRIA, March 2009.
[40] F. Alauzet and B. Mohammadi. Optimisation 3D du nez d’un SuperSonic Business Jet basée sur l’adaptation de maillages. RR-5053, INRIA, December 2003. (in French).
[41] F. Alauzet, P.J. Frey, and B. Mohammadi. Improvement of aerodynamic and acoustic performances of supersonic business jet. Technical report, Dassault Aviation Report, 2003.
[42] F. Alauzet and P.J. Frey. Estimateur d’erreur géométrique et métrique anisotropes pour l’adaptation de maillage. partie II : applications. RR-4759, INRIA, March 2003. (in French).
[43] F. Alauzet and P.J. Frey. Estimateur d’erreur géométrique et métrique anisotropes pour l’adaptation de maillage. partie I : aspects théoriques. RR-4759, INRIA, March 2003. (in French).
Book Chapters
[44] B. Koobus, F. Alauzet, and A. Dervieux. Numerical algorithms for unstructured meshes. In Compu-tational Fluid Dynamics, Chapman and Hall/CRC Numerical Analysis and Scientific Computation Series, Edited by F. Magoules, chapter 7. CRC Press, Boca Raton, London, New York, Washington D.C., 2012.
[45] F. Alauzet, B. Mohammadi, and O. Pironneau. Mesh adaptivity and optimal shape design for aeros-pace. InVariational Analysis and Aerospace Engineering : Mathematical Challenges for Aerospace Design, Springer Optimization and Its Applications, Vol. 66, Edited by G. Buttazzo and A. Frediani, chapter 14, pages 323–338. Springer, Dordrecht, Heidelberg, London, New York, 2012.
Thesis
[46] F. Alauzet. Contributions aux méthodes numériques pour l’adaptation de maillage et le maillage mobile. Habilitation à Diriger des Recherches, Université Pierre et Marie Curie, Paris VI, Paris, France, 2012.
[47] F. Alauzet. Adaptation de maillage anisotrope en trois dimensions. Application aux simulations ins-tationnaires en Mécanique des Fluides. PhD thesis, Université Montpellier II, Montpellier, France, 2003. (in French).
