cv bouffanais
TRANSCRIPT
7/25/2019 CV Bouffanais
http://slidepdf.com/reader/full/cv-bouffanais 1/7
Assistant ProfessorSingapore University of Technology and Design (SUTD) tel: +65 6303 6667
Engineering & Product Development Pillar fax: +65 6468 9256
8 Somapah Road email: [email protected] 487372 web: people.sutd.edu.sg/acg
Theoretical & Computational Complexity Science Swarm Intelligence & Robotics Experimental Mechanobiology Computational Fluid Dynamics & Distributed Computing
2007 Ph.D. Science, Swiss Federal Institute of Technology Lausanne, (EPFL) Switzerland
1999 M.Sc. Fundamental Physics, Ecole Normale Superieure, (ENS) Lyon, France
1999 M.Sc. Hydrodynamics, University of Paris VI – Pierre & Marie Curie, (UPMC) Paris, France1998 ‘Agregation’ of Physics, French higher teaching certificate, ranked among top 5% nationwide
2011 Member of the Editorial Board of Computers & Fluids 2009 IMACS 2008 Most Successful Papers Award, in App. Num. Math.2008 IBM Research Prize in Computational Sciences: “Exceptional quality in Doctoral thesis work,
specifically, in the originality of method of calculation used and in the scientific results obtained”2008 Finalist EPFL Doctorate Award2007 ERCOFTAC Da Vinci Award: “Best European Doctoral thesis on Flow, Turbulence and
Combustion”: Silver medal2007 Swiss National Science Foundation, Prospective Researcher Fellowship
2003 Swiss Federal Institute of Technology Lausanne, Doctoral School Merit Scholarship1995–1999 Ecole Normale Superieure de Lyon, Teaching and Research Scholarship
June 2011– Assistant Professor, Pillar of Engineering & Product Development
2010–2011 Research Fellow, Department of Computer Science (CUI), SPC group
2010–2011 Visiting Scientist, Department of Mechanical Engineering, LFMI groupFall 2010 Visiting Lecturer, Department of Mechanical Engineering
2010– Research Associate, Department of Mechanical Engineering, VFRL group2008–2010 Postdoctoral Fellow & Associate, Department of Mechanical Engineering
2007 Research Scientist, School of Engineering2003–2007 Research Assistant, School of Engineering
July 2006 Visiting Scholar, Department of Civil Engineering
2001–2003 Instructor and Manager for a double-degree program
2001 Member of the Admission Board for Ecole Centrale Paris & Ecole Superieure d’Electricite
1999–2001 Physics Instructor
7/25/2019 CV Bouffanais
http://slidepdf.com/reader/full/cv-bouffanais 2/7
PhD Course Subject Lead: 30.504 – Computational Science & Engineering (Spring 2015, Spring 2016)Term 5 Subject Lead: 30.103 – Fluid Mechanics (Spring 2014, Spring 2015, Spring 2016)Term 3 Cohort Instructor: 10.008 – Engineering in the Physical World (Spring 2014)Term 3 Subject Lead & Cohort Instructor: 10.008 – Engineering in the Physical World (Spring 2013)Term 1 Instructor: 10.002 – Physics 1 (Summer 2012)Term 0 Instructor: Integrated Learning Program 2 – Physics 2
Fall 2010 Lecturer: Instability and Turbulence (jointly taught with Prof. Francois Gallaire)
Falls 2003–2006 Teaching Assistant: Incompressible Fluid MechanicsSprings 2005–2006 Teaching Assistant: Continuum MechanicsSprings 2004–2006 Teaching Assistant: Hydrodynamics
Falls 2001–2002 Instructor: Physics—bachelor level, double degree program with French “Grandes Ecoles”
Springs 2001–2003 Instructor: Physics applied to Engineering—Faculty of Engineering and Science
1999–2001 Instructor: Complete Physics curriculum, equivalent to the second year in university
• U.S. Provisional Patent Application No. 62/151,530 “Device and Method for Analyzing Cell Motility”
1. Design and Control of Swarm Dynamics
R. Bouffanais, Springer, Complexity Series ISBN 978-9812877505, 118 pages, 2015. web
2. ThermodynamicsR. Bouffanais, Prepamath Edition (In French), ISBN 2–910350–30–4, 192 pages, 1999. web
3. Excess of social behavior reduces the capacity to respond to perturbationsD. Mateo, Y. K. Kuan & R. Bouffanais, Under Review, 2015.
4. Interplay between motility and cell-substratum adhesion in amoeboid cellsX. Zhu, R. Bouffanais & D. K. P. Yue, Biomicrofluidics , (9), 054112 2015. pdf, doi
5. Swarming collapse under limited information flow between individualsM. Komareji, Y. Shang & R. Bouffanais, Under Review 2015. pdf
6. Interplay between signaling network design and swarm dynamicsA. Sekunda, M. Komareji & R. Bouffanais, Network Science , In Press 2015.
7. Interaction of a two-dimensional electromagnetic pulse with an electron inhomogeneity inan array of carbon nanotubes in the presence of field inhomogeneityA. V. Zhukov, R. Bouffanais, H. Leblond, D. Mihalache, E. G. Fedorov & M. B. Belonenko, Eur. Phys.J. D , (69), 242 2015. pdf, doi
8. Anomalous slowing down of individual human activity due to successive decision-makingprocessesA. V. Zhukov, R. Bouffanais & S. Fedotov, Under Review 2015.
9. Two-dimensional light bullets in a Bragg medium with carbon nanotubesA. V. Zhukov, R. Bouffanais, M. B. Belonenko, N. N. Konobeeva, Y. V. Nevzorova & T. F. George, Eur.Phys. J. D , (69), 129, 2015. pdf, doi
7/25/2019 CV Bouffanais
http://slidepdf.com/reader/full/cv-bouffanais 3/7
10. Study of the indirect interaction in a non-Fermi liquid within the AdS/CFT correspondenceframeworkA. V. Zhukov, R. Bouffanais, A. V. Pak & M. B. Belonenko, Mod. Phys. Lett. B , (29), 1550181, 2015. pdf, doi
11. Consensus reaching in swarms ruled by a hybrid metric-topological distanceY. Shang & R. Bouffanais, Eur. Phys. J. B , (87), 294 2014. pdf, doi
12. Persistent cellular motion control and trapping using mechanotactic signaling
X. Zhu, R. Bouffanais & D. K. P. Yue, PLoS one , (9), e105406, 2014. pdf, doi
13. Tunneling characteristics of a contact between a superlattice and non-Fermi liquid usingthe AdS/CFT correspondenceM. B. Belonenko, N. N. Konobeeva, D. M. Smovzh, A. V. Zhukov & R. Bouffanais, Mod. Phys. Lett. B ,(28), 1450170, 2014. pdf, doi
14. Interaction of a two-dimensional electromagnetic breather with an electron inhomogeneityin an array of carbon nanotubesA. V. Zhukov, R. Bouffanais, E. G. Fedorov & M. B. Belonenko, J. App. Phys., (115), 203109, 2014. pdf, doi
15. On the influence of multi-level impurities on the dynamics of ultrashort electromagneticpulses in carbon nanotubes
A. V. Zhukov, R. Bouffanais, N. N. Konobeeva, M. B. Belonenko & T. F. George, Europhys. Lett., (106),37005, 2014. pdf, doi
16. Few-cycle optical pulses in a thin film of a topological insulatorA. V. Zhukov, R. Bouffanais, M. B. Belonenko, N. N. Konobeeva & T. F. George, Opt. Commun., (329),151–153, 2014. pdf, doi
17. Influence of the number of topologically interacting neighbors on swarm dynamicsY. Shang & R. Bouffanais, Nature Sci. Rep., (4), 04184, 2014. pdf, doi
18. Resilience and controllability of dynamic collective behaviorsM. Komareji & R. Bouffanais, PLoS one , (8), e82578, 2013. pdf, doi
19. Physical limits on cellular directional mechanosensing
R. Bouffanais, J. Sun & D. K. P. Yue, Phys. Rev. E , (87), 052716, 2013. pdf, doi
20. Three-dimensional electromagnetic breathers in carbon nanotubes with the field inhomo-geneity along their axesA. V. Zhukov, R. Bouffanais, E. G. Fedorov & M. B. Belonenko, J. Appl. Phys., (114), 143106 2013. pdf, doi
22. On the electronic spectrum in curved graphene nanoribbonsA. V. Zhukov, R. Bouffanais, N. N. Konobeeva & M. B. Belonenko, JETP Lett., (97), 400–403, 2013. pdf, doi
22. Study of the indirect exchange interaction in a strained graphene nanoribbonA. V. Zhukov, R. Bouffanais, A. V. Pak & M. B. Belonenko, Physica B , (419), 62–65, 2013. pdf, doi
23. Propagation of laser beams in an array of semiconductor carbon nanotubesA. V. Zhukov, R. Bouffanais, M. B. Belonenko & E. G. Fedorov, Modern Phys. Lett. B , (27), 1350045,
2013. pdf, doi
24. Propagation of extremely short pulses in a graphene-boron nitride bilayerA. V. Zhukov, R. Bouffanais, A. V. Pak & M. B. Belonenko, Phys. Lett. A, (377), 564–566, 2013. pdf, doi
25. Computational Fluid Dynamics for Architectural DesignS. Kaijima, R. Bouffanais, S. Naidu & K. Willcox, Architectural Design , (83), Issue 2, 118–123, 2013. pdf, doi
26. The Hall conductivity of a doped graphene in a quantizing magnetic fieldM. B. Belonenko, A. V. Pak, A. V. Zhukov and R. Bouffanais, Modern Phys. Lett. B , (26), 125088,2012. pdf, doi
27. Hydrodynamic object recognition using pressure sensingR. Bouffanais, G. D. Weymouth & D. K. P. Yue, Proc. Roy. Soc. A, (467), 19–38, 2011. pdf, doi
28. Time-scale joint representation of DNS and LES numerical dataG. Courbebaisse, R. Bouffanais, L. Navarro, E. Leriche & M. O. Deville, Computers & Fluids , (43),38–45, 2011. pdf, doi
7/25/2019 CV Bouffanais
http://slidepdf.com/reader/full/cv-bouffanais 4/7
29. Hydrodynamics of cell-cell mechanical signaling in the initial stages of aggregationR. Bouffanais & D. K. P. Yue, Phys. Rev. E , (81), 041920, 2010. pdf, doi
Also selected to appear in:Virtual Journal of Biological Physics Research , (19), Issue 9, May 2010. http://www.vjbio.org
Virtual Journal of Nanoscale Science and Technology , (21), Issue 19, May 2010. http://www.vjnano.org
Also selected for the Kaleidoscope Images of Phys. Rev. E , April–May 2010. web
30. Advances and challenges of applied large-eddy simulationR. Bouffanais, Computers & Fluids , (39), 735–738, 2010. pdf, doi
31. Computational performance of a parallelized three-dimensional high-order spectral elementtoolboxC. Bosshard, R. Bouffanais, M. O. Deville, R. Gruber & J. Latt, Computers & Fluids , In Press, 2010. pdf, doi
32. Unsteady transitional swirling flow in the presence of a moving free surfaceR. Bouffanais & D. Lo Jacono, Phys. Fluids , (21), Art. 064107, 2009. pdf, doi
33. Transitional cylindrical swirling flow in presence of a flat free surfaceR. Bouffanais & D. Lo Jacono, Computers & Fluids , (38), 1651–1673, 2009. pdf, doi
34. Solution of moving boundary problems by the spectral element method
N. Bodard, R. Bouffanais & M. O. Deville, App. Num. Math., (58), 968–984, 2008. pdf, doi35. A coupled approximate deconvolution and dynamic mixed scale model for large-eddy sim-
ulationM. A. Habisreutinger, R. Bouffanais, E. Leriche & M. O. Deville, J. Comput. Phys., (224), 241–266,2007. pdf, doi
36. Large-eddy simulation of the flow in a lid-driven cubical cavityR. Bouffanais, M. O. Deville & E. Leriche, Phys. Fluids., (19), Art. 055108, 2007. pdf, doi
37. Mesh update techniques for free-surface flow solvers using spectral element methodR. Bouffanais & M. O. Deville, J. Sci. Comput., (27), 137–149, 2006. pdf, doi
38. Large-eddy simulation of the lid-driven cubic cavity flow by the spectral element method
R. Bouffanais, M. O. Deville, P. F. Fischer, E. Leriche & D. Weill, J. Sci. Comput., (27), 151–162, 2006. pdf, doi
39. Resolution des systemes optiques et MapleR. Bouffanais, Bulletin de l’Union des Physiciens , (831), 1003–1013, 2001. pdf, doi
40. Nonequilibrium electron interactions in metal filmsN. Del Fatti, R. Bouffanais, F. Vallee & C. Flytzanis, Phys. Rev. Lett., (81), 922–925, 1998. pdf, doi
41. Tunneling current of the contact of the curved graphene nanoribbon with metal and quan-tum dotsM. B. Belonenko, N. N. Konobeeva, A. V. Zhukov & R. Bouffanais, Handbook of Graphene Science,
CRC Press, Boca Raton, FL, Forthcoming, 2016. web
42. High-performance computing of industrial flowsR. Bouffanais, N. Fietier, J. Latt, M. O. Deville, Chapter 7: High performance computing with spectralelement methods. In VKI Lecture Series, edited by J.-M. Buchlin, P. Rambaud, Ph. Planquart. ISBN978–2–930389–93–1, von Karman Institute for Fluid Dynamics, 2009. pdf, web
43. Integrated 2D Design in the Curriculum: Effectiveness of Early Cross-Subject EngineeringChallengesK. Otto, B. A. Camburn, K. L. Wood, G. Nannicini, R. Bouffanais, et al. 121st ASEE Conference & Exhibition , Indianapolis (IN), June 15-18, 2014. pdf, web
44. Controllability of a swarm of topologically interacting autonomous agentsM. Komareji & R. Bouffanais, Int. J. Complex Systems in Science , (3)1, 11–19, 2013. pdf, doi
7/25/2019 CV Bouffanais
http://slidepdf.com/reader/full/cv-bouffanais 5/7
45. Computational Fluid Dynamics for Architectural DesignS. Kaijima, R. Bouffanais & K. Willcox, In Open Systems: Proceedings of the 18th International Confer-ence of the Association of Computer-Aided Architectural Design Research in Asia CAADRIA, R. Stouffs,P. H. T. Janssen, S. Roudavski, B. Tuncer (eds.), Hong Kong, 169–178, 2013. pdf, doi
46. Grid Filter Modeling for Large-Eddy SimulationM.A. Habisreutinger, R. Bouffanais & M. O. Deville, In Notes Num. Fluid Mech. and Multidisciplinary Design , (110), 159–165, 2010. pdf, doi
47. Wavelet analysis of turbulent LES data of the lid-driven cavity flowR. Bouffanais, G. Courbebaisse, L. Navarro & M. O. Deville, In Notes Num. Fluid Mech. and Multidis-ciplinary Design , (110), 87–94, 2010. pdf, doi
48. Computational p erformance of a parallelized 3D high-order spectral element toolboxC. Bosshard, R. Bouffanais, C. Clemencon, M. O. Deville, N. Fietier, R. Gruber, S. Kehtari, V. Keller &J. Latt, In Lecture Notes in Computer Science , (5737), 323–329, 2009. pdf, doi
49. Grid filter models for large-eddy simulationR. Bouffanais, M. A. Habisreutinger & M. O. Deville, In Proc. Appl. Math. Mech., (7), 1101203–1101204,2008. pdf, doi
50. Large-eddy simulation of the flow in a lid-driven cavity using dynamic approximate decon-
volution modelsR. Bouffanais, E. Leriche & M. O. Deville, In Proc. 18 th Congres francais de Mecanique , CFM’07,Institut National Polytechnique Grenoble, 2007. pdf, web
51. Simulation of standing waves using moving-grid techniques with spectral element methodsR. Bouffanais & M. O. Deville, In Proc. Int. Conf. Math. Num. Waves , pp. 374–375, Brown University,Providence (RI), 2005. pdf, web
52. Computational performance analysis of a high-order spectral and mortar element toolboxon commodity clustersR. Bouffanais, M. O. Deville, R. Gruber & V. Keller, Computer Science Open Archive Arxiv.org ,
0709.1024v1 [cs.DC], 2007. pdf, web
53. Simulation of shear-driven flows: transition with a free surface and confined turbulenceR. Bouffanais, Ph.D. thesis , (3837), Ecole Polytechnique Federale de Lausanne. Schweizerische Nation-albibliothek NB 001515598, 2007. pdf, web
National Science Center (OSF, Poland), Austrian Science Fund (FWF), MacArthur Fellows Program , J. R.Soc. Interface , J. Fluid. Mech., Phys. Rev. E , Computers & Fluids , J. Fluid Struc., J. Comput. Biol. and Bioinf., J. Biomechanics , IEEE Trans. Ind. Elec., J. Comput. Phys., Int. J. Heat. Fluid Flow , App. Num.Math., Fluid Dyn. Res., App. Math. Model., J. Parallel Distr. Comput., Cognitive Computation , Mod. Phys.Lett. B , Computers & Chem. Eng., J. Eng. Math., J. Para. Distri. Comput., Comm. Comp. Phys., Math.
& Computers in Simulation , Symmetry , Int. J. Num. Modeling , ASME–OMAE , Int. J. Comput. Fluid Dyn.,Open Journal of Fluid Dynamics , ASEE
2015 Nikolaj Sorensen – Visiting Master Student from Aalborg University (1 semester)2014 Jabez Leong Kit & Nguyen Van Duong – UROP Students2013 Andre Kradbup Sekunda – Visiting Master Student from Aalborg University (1 semester)2012 Yiyao Li, Hanwei Li, Lisa Kwok & Alister Lusuan – UROP Students2011 Liza Ng & Law Che Kun – SUTD Campus Builders2011 Leong Hei Kern – Singapore Polytechnique Intern
Fall 2007 Christoph Boeckle – Semester projectFall 2006 Michel Curina – Master Thesis
Summer 2006 Christoph Boeckle – InternshipSpring 2006 Marc-Antoine Habisreutinger – Master ThesisSpring 2006 Michel Curina – Graduate project
Fall 2005 Marc-Antoine Habisreutinger – Graduate projectSpring 2005 Tryphon Antonakakis – Graduate project
7/25/2019 CV Bouffanais
http://slidepdf.com/reader/full/cv-bouffanais 6/7
March 2016 NTU Winter School on Complexity – Invited LecturerNTU Complexity Institute
July 2015 University of BordeauxCPU Cluster of Excellence Invited Talk, Bordeaux, France
June 2015 9th Annual CENSAM WorkshopJoint talk with Prof. Dick K.P. Yue, SMART, Singapore
June 2015 SCy-Phy Systems 2015 International WorkshopPresenter and Panelist (Control), Singapore
April 2015 Singapore MIT Alliance for Research and Technology (SMART)CENSAM – Seminar Series on Marine Reearch, Singapore
December 2014 Department of Mechanical EngineeringMassachusetts Institute of Technology, Cambridge (MA)
April 2014 Nanyang Technological University (NTU)School of Materials Science and Engineering, Singapore
April 2010 National University of Singapore (NUS)Department of Mechanical Engineering, Faculty of Engineering, Singapore
October 2009 Paul Scherrer Institut (PSI)Laboratory for Thermal Hydraulics, Villigen, Switzerland
October 2009 Swiss Federal Institute of Technology Lausanne (EPFL)Laboratory of Fluid Mechanics and Instabilities, School of Engineering, Lausanne, Switzerland
May 2009 The von Karman Institute for Fluid DynamicsHPC with Spectral Element Methods (co-lecturer), Rhode-St-Genese, Belgium
May 2009 Scientific Computing Group Seminars, Division of Applied MathematicsBrown University, Providence (RI)
March 2009 Department of Applied Mathematics, NMPDE, MIT, Cambridge (MA)
October 2008 IBM Deep Computing Seminars, Zurich, Switzerland
October 2008 Award Ceremony, Doctoral School, EPFL, Lausanne, SwitzerlandApril 2008 Department of Civil & Environmental Engineering
Massachusetts Institute of Technology, Cambridge (MA)
October 2007 Royal Academy, ERCOFTAC Science Forum, Brussels, Belgium
September 2007 Laboratoire CREATIS-LRMN UMR 5220, INSERM U 630, Lyon, France
August 2007 Swiss Federal Institute of Technology, Continuing Education LecturesParallelization of Spectral Element Methods (co-lecturer), Lausanne, Switzerland
March 2007 Laboratoire TREFLE UMR 8508, Seminar ENSCPB Bordeaux, France
November 2006 Physical Mathematics seminar, Massachusetts Institute of Technology, Cambridge (MA)
November 2006 2006 Annual Meeting of the Leonhard Euler Center, European Research Community onFlow Turbulence and Combustion, EPFL, Lausanne, Switzerland
October 2006 Conference of the Dutch-Flemish Numerical Analysis CommunitiesLecture Series on Numerical Analysis (co-lecturer), Woudschoten, The Netherlands
July 2006 Center for Environmental and Applied Fluid MechanicsJohns Hopkins University, Baltimore (MD)
7/25/2019 CV Bouffanais
http://slidepdf.com/reader/full/cv-bouffanais 7/7