Resume of Research, Teaching and Service: Mark Sussman, May
2012
Department of Mathematics, Florida State University
Tallahassee, Florida 32306-4510
Phone: 412-***-****; Fax: 850-***-****
E-Mail: *******@****.***.***
Web Site: http://www.math.fsu.edu/~sussman
Professional Preparation
1989-1994 PhD, University of California, Los Angeles, Los Angeles, CA.
Major: Mathematics. Dissertation: A Level Set Approach for
Computing Solutions to Incompressible Two-Phase Flow.
Dissertation supervisor: Stanley Osher.
1987-1989 MA, University of California, Los Angeles, Los Angeles, CA.
Major: Mathematics.
1983-1986 BS, San Diego State University, San Diego, CA.
Applied Mathematics, Physics and Computer Science.
Graduated summa cum laude.
Post-Degree Education and Training
1996-1999 Visiting Research Assistant Professor, University of California,
Davis, Davis, CA. (mentor: Elbridge Gerry Puckett)
1994-1996 Post Doc, Lawrence Livermore National Laboratory, Livermore, CA.
(mentor: John Bell)
Professional Experience
2010-present Professor, Florida State University Mathematics
2005-2010 Associate Professor, Florida State University Mathematics
1999-2005 Assistant Professor, Florida State University Mathematics
2009-2011 Consultant, UTRC (spray simulation methods)
2007 Consultant, SAIC (Code enhancements to NFA)
1987-1992 Programmer, Unique Business Systems, Santa Monica, CA
Honors and Awards
1. Computational Mechanics Achievement Award, The Japan Society of
Mechanical Engineers, Computational Mechanics Division (2007).
2. Fluid and Particle Processing Award, the Society of Chemical Engi-
neering, Japan (2003).
RESEARCH
Refereed Journal Articles
1. M. Jemison, E. Loch, M. Sussman, M. Shashkov, M. Arienti, Y.
Wang, M. Ohta (2012). A coupled level set-moment of uid method
for incompressible two phase ow. Accepted: Journal of Scienti c Com-
puting.
2. M. Ohta, S. Kimura, T. Furukawa, Y. Yoshida, and M. Sussman
(2012). Numerical Simulations of a bubble rising through a shear-
thickening uid. Submitted to the Journal of Chemical Engineering,
Japan.
3. M. Ohta and M. Sussman (2011). The buoyancy-driven motion of a
single skirted bubble or drop rising through a viscous liquid. Submitted
to Physics of Fluids.
4. Y. Wang, S. Simakhina and M. Sussman (2011). A hybrid level
set-volume constraint method for incompressible two-phase ow. sub-
mitted to the Journal of Computational Physics.
5. M. Ohta, K. Hashimoto, K. Naito, Y. Matsuo, and M. Sussman
(2012). Numerical Analysis of Gas-Liquid Bubble Flow in a Horizon-
tal Rectangular Channel. Journal of Chemical Engineering of Japan,
45(2), pages 102-106 (2012) (short communication).
6. M. Sussman (2011). A method for overcoming the surface tension
time step constraint in multiphase ows II. International Journal for
Numerical Methods in Fluids, 66(1), Early View
http://dx.doi.org/10.1002/fld.2557
7. C. Eckett, M. Arienti, X. Li, M. Soteriou, M. Sussman, and B. Jensen
(2011). Coupled Level-Set/Volume-of-Fluid Method for the simula-
tion of Liquid Atomization in Propulsion Device Injectors. Journal of
Propulsion and Power. Accepted for publication.
8. M. Ohta, S. Kikuchi, Y. Yoshida, and M. Sussman (2011). Robust
numerical analysis of the dynamic bubble formation process in a viscous
liquid. International Journal of Multiphase ow, 37(9)(2011) 1059-
1071.
9. M. Ohta, S. Yamaguchi, Y. Yoshida, and M. Sussman (2010). The
sensitivity of drop motion due to the density and viscosity ratio. Physics
of Fluids, 22(2010) 072102.
10. M. Ohta, Y. Yoshida, and M. Sussman (2010). A computational
study of dynamic processes of a bubble rising in Carreau model uids.
Fluid Dynamics Research, 42(2010) 025501.
11. M. Ohta, K. Onodera, Y. Yoshida, and M. Sussman (2009). Three-
dimensional simulations of the dynamic motion of single drops rising in
viscoelastic FENE-CR model uids. Journal of Chemical Engineering,
Japan, 42(10)(2009) 705-712.
12. M. Ohta, Y. Akama, Y. Yoshida, and M. Sussman (2009). Three-
dimensional simulation of the evolution process to vortex rings of falling
drops in an immiscible viscous liquid. Journal of Chemical Engineering,
Japan, 42(2009) 648.
13. M. Sussman and M. Ohta. (2009). A stable and e cient method
for treating surface tension in incompressible two-phase ow. SIAM
Journal on Scienti c Computing, 31(4), 2447-2471.
14. V. Mihalef, D. Metaxas, and M. Sussman. (2009). Simulation of two-
phase ow with sub-scale droplet and bubble e ects. Comput. Graph.
Forum, 28(2), 229-238.
15. S. Kadioglu and M. Sussman. (2008). Adaptive solution techniques
for simulating underwater explosions and implosions. Journal of Com-
putational Physics, 227, 2083-2104.
16. P.A. Stewart, N. Lay, M. Sussman, and M. Ohta. (2008). An im-
proved sharp interface method for viscoelastic and viscous two-phase
ows. Journal of Scienti c Computing, 35(1), 43-61.
17. M. Ohta, M. Tsuji, Y. Yoshida, and M. Sussman. (2008). The tran-
sient dynamics of a small bubble rising in a low morton number regime.
Chemical Engineering Technology, 31(9), 1-9.
18. M. Ohta, D. Kikuchi, Y. Yoshida, and M. Sussman. (2007). Direct
numerical simulation of the slow formation process of single bubbles in
a viscous liquid. Journal of Chemical Engineering, Japan, 40, 939-943.
19. M. Sussman and M. Ohta. (2007). Improvements for calculating
two-phase bubble and drop motion using an adaptive sharp interface
method. Fluid Dynamics and Materials Processing, 3(1), 21-36.
20. V. Mihalef, D. Metaxas, and M. Sussman. (2007). Textured Liquids
based on the Marker Level Set. Comput. Graph. Forum, 26, 457-466.
21. V. Mihalef, S. Kadioglu, M. Sussman, D. Metaxas, and V. Hurmu-
siadis. (2007). Interaction of multiphase ow with animated models.
Graphical Models, 70, 33-42.
22. M. Sussman, K.M. Smith, M.Y. Hussaini, M. Ohta and R. Zhi-Wei.
(2007). A sharp interface method for incompressible two-phase ows.
Journal of Computational Physics, 221(2), 469-505.
23. A. VanderWyst, A. Christlieb, I.D. Boyd, and M. Sussman. (2007).
Simulation of liquid metal droplets from eld emission. Communica-
tions in Computational Physics, 2(4), 640-661.
24. H. Touil, M.Y. Hussaini, and M. Sussman. (2007). Tracking disconti-
nuities in hyperbolic conservation laws with spectral accuracy. Journal
of Computational Physics, 225(2), 1810-1826.
25. M. Sussman and M. Ohta. (2007). High-order Techniques for Calcu-
lating Surface Tension Forces. International Series of Numerical Math-
ematics, Free Boundary Problems, volume 154, pages 425-434.
26. M. Ohta, M. Yoshida, and M. Sussman. (2006). Three-dimensional
computations of the motion of a newtonian drop rising through immisci-
ble quiescent shear-thinning liquids. Journal of Chemical Engineering,
Japan, 39(4), 394-400.
27. E. Jimenez, M. Sussman, and M. Ohta. (2005). A computational
study of bubble motion in newtonian and viscoelastic uids. Fluid
Dynamics and Materials Processing, 1(2), 97-108.
28. S. Kadioglu, M. Sussman, S. Osher, J.P. Wright, and M. Kang.
(2005). A second order primitive preconditioner for solving all speed
multi-phase ows. Journal of Computational Physics, 209(2), 477-503.
29. M. Ohta, S. Haranaka, Y. Yoshida and M. Sussman. (2005). Three-
dimensional Numerical Simulations of the e ect of initial bubble con-
ditions on the motion of a bubble rising in viscous liquids. Journal
Chemical Engineering (Japan), 38(11), 878-882.
30. M. Ohta, T. Imura, Y. Yoshida and M. Sussman. (2005). A Compu-
tational Study of the e ect of initial bubble conditions on the motion
of a gas bubble rising in viscous liquids. International Journal of Mul-
tiphase Flow, 31(2), 223-237.
31. M. Sussman. (2005). A Parallelized, Adaptive algorithm for multi-
phase ows in general geometries. International Journal of Computers
and Structures, 83, 435-444.
32. M. Ohta, S. Haranaka, Y. Yoshida and M. Sussman. (2004). Three-
dimensional Numerical Simulations of the motion of a gas bubble rising
in viscous liquids. Journal Chemical Engineering (Japan), 37(8), 968-
975.
33. M. Sussman and M.Y. Hussaini. (2003). A Discontinuous Spectral
Element Method for the Level Set equation. J. Scienti c Computing,
19, 479-500.
34. M. Sussman. (2003). A second order Coupled Level Set and Volume-
of-Fluid Method for computing growth and collapse of vapor bubbles.
Journal of Computational Physics, 187, 110-136.
35. M. Sussman and E.G. Puckett. (2000). A Coupled Level Set Volume
of Fluid Method for computing 3d and axisymmetric Incompressible
two-phase ows. Journal of Computational Physics, 162, 301-337.
36. M. Sussman, A. Almgren, J. Bell, P. Colella, L. Howell and M. Wel-
come. (1999). An Adaptive Level Set Approach for Incompressible
Two-Phase Flows. Journal of Computational Physics, 148, 81-124.
37. M. Sussman and E. Fatemi. (1999). An E cient, Interface Preserving
Level Set Redistancing Algorithm and Its Application to Interfacial
Incompressible Fluid Flow. SIAM J. Sci. Comput, 20(4), 1165-1191.
38. M. Sussman, E. Fatemi, P. Smereka and S. Osher. (1998). An Im-
proved Level Set Method For Incompressible Two-Phase Flows. Jour-
nal of Computers and Fluids, 27(5-6), 663-680.
39. M. Sussman and P. Smereka. (1997). Axisymmetric Free Boundary
Problems. Journal of Fluid Mechanics, 341, 269-294.
40. M. Sussman, P. Smereka, and S. Osher. (1994). A Level Set Ap-
proach for Computing Solutions to Incompressible Two-Phase Flow.
Journal of Computational Physics, 114, 146-159.
Invited Book Chapters
1. G. Tryggvason, M. Sussman and M.Y. Hussaini. (2007). Immersed
boundary methods for uid interfaces. In A. Prosperetti and G. Tryg-
gvason (Ed.), Computational Methods for Multiphase Flow (pp. 37-
77). Cambridge : Cambridge University Press.
2. M. Sussman and M. Ohta. (2007). High-order techniques for cal-
culating surface tension forces. In I. Figueiredo, J. Rodrigues, and
L. Santos (Ed.), Free Boundary Problems (pp. 425-434). Birkhauser
Basel.
3. M. Sussman. (2000). An adaptive mesh algorithm for free surface
ows in general geometries. In A. Vande Wouver, P.H. Saucez, and
W.E. Scheisser (Ed.), Adaptive Method of Lines (pp. 207-231). Chap-
man and Hall/CRC Press.
Refereed Proceedings
1. M. Ohta, Y. Akama, Y. Yoshida, and M. Sussman. (2009). The
Unstable Dynamics of Single Drops Rising in Immiscible Viscous Flu-
ids. In: Proc. of the 8th World Congress of Chemical Engineering
(WCCE8) (10 pages). Montreal, Quebec, Canada.
2. V. Mihalef, D. Metaxas, M. Sussman, and L. Axel. (2009). Atri-
oventricular blood ow simulation based on patient-speci c data. In:
N. Ayache, H. Delingette, and M. Sermesant (Ed.), Proceedings of the
2009 Fifth international conference on functional imaging and modeling
of the heart, lecture notes in computer science proceedings (10 pages).
Nice, France: Springer.
3. V. Mihalef, B. Unlusu, D. Metaxas, M. Sussman and M.Y. Hussaini.
(2006). Physics-based boiling simulation. In M.-P. Cani and J. O Brien
(Ed.), Proceedings of the 2006 ACM SIGGRAPH/Eurographics sym-
posium on Computer Animation (pp. 317-324). Vienna Austria: Eu-
rographics Association.
4. V. Mihalef, M. Sussman, and D. Metaxas. (2004). Animation and
control of breaking waves. In R. Boulic and D. Pai (Ed.), Proceedings
of the 2004 ACM SIGGRAPH/Eurographics symposium on Computer
Animation (pp. 315-324). Grenoble, France: Eurographics Associa-
tion.
Non-Refereed Journal Articles
1. M. Sussman. (2001). Computing droplet break-up using an adaptive
coupled level set/volume-of- uid method for incompressible two-phase
ow in general geometries. CFD Journal, 9(1).
Non-Refereed Proceedings
1. M. Ohta, K. Onodera, Y. Yoshida, M. Sussman (2008). Three-
Dimensional Numerical Simulations of a Rising Bubble in a Viscoelastic
FENE-CR Model Fluid. In: AIP Conference Proceedings: Materials
Physics and Applications, 1027. The 15th International Congress on
Rheology (896-898). Monterey, CA, USA.
2. D.G. Dommermuth, T.T. O Shea, D. Wyatt, M. Sussman, G. Wey-
mouth, D. Yue, P. Adams, R. Hand. (2006). The numerical simulation
of ship waves using cartesian-grid and volume-of- uid methods. In Pro-
ceedings of the twenty-sixth symposium on naval hydrodynamics (17
pages). Rome, Italy: Strategic Analysis.
3. M. Ohta, Y. Yoshida, M. Sussman. (2004). Three-Dimensional Nu-
merical Simulations of a Drop Rising in Shear-Thinning Fluid Systems.
In Proc. of the 14th International Congress on Rheology, CD-ROM,
NF35, Seoul, August 22-27.
4. D.G. Dommermuth, M. Sussman, R. Beck, T.T. O Shea, and D.
Wyatt. (2004). The numerical simulation of ship waves using Carte-
sian grid methods with adaptive mesh re nement. In Proceedings of
the twenty- fth symposium on naval hydrodynamics (13 pages). St.
John s, Newfoundland and Labrador, Canada: National Academies
Press.
5. D.G. Dommermuth and M. Sussman (2000). The numerical simula-
tion of ship waves using cartesian grid methods. In Proceedings of the
twenty-third symposium on naval hydrodynamics (18 pages). Val-De-
Reuil, France: National Academies Press.
6. I. Aleinov, E.G. Puckett, and M. Sussman (1999). Formation of
droplets in microscale jetting devices. In: proceedings of the 3rd
ASME/JSME joint uids engineering conference (6 pages). San Fran-
cisco, CA (= FEDSM99-7106).
7. P. Colella, D.T. Graves, D. Modiano, E.G. Puckett, and M. Sussman
(1999). An embedded boundary/volume of uid method for free surface
ows in irregular geometries. In: proceedings of the 3rd ASME/JSME
joint uids engineering conference (6 pages). San Francisco, CA (=
FEDSM99-7108).
8. D. Marcus, M. Sussman, and D. Chambers (1995). Relaxation spec-
tra of surface waves. In Proceedings of the 1995 International Mechan-
ical Engineering Congress and Exposition (10 pages). Reno, NV.
Non-Refereed Reports
1. A. Du y, A. Kuhnle and M. Sussman (2011). An Improved Variable
Density Pressure Projection Solver for Adaptive Meshes. preprint.
2. M. Sussman and S. Uto (1998). Computing Oil Spreading Under-
neath a sheet of ice (CAM report 98-32). Los Angeles, CA: UCLA,
Computational and Applied Math.
Non-Refereed Reviews
1. M. Sussman. (2011). Review of A method of projection of delta
waves in a Godunov scheme and application to pressureless uid dy-
namics : M. Colombeau. MathSciNet/Mathematical Reviews, MR 2
745 266 .
2. M. Sussman. (2011). Review of Geometric Applications of the
Split Bregman Method: Segmentation and Surface Reconstruction :
T. Goldstein, X. Bresson, and S. Osher. MathSciNet/Mathematical
Reviews, MR 2 679 800 (2011k:65029).
3. M. Sussman. (2010). Review of A kind of double regularized GM-
RES Methods : J. Liu and G. He. MathSciNet/Mathematical Reviews,
MR 2 588 757 (2011e:65048).
4. M. Sussman. (2010). Review of Monotone nite volume schemes of
nonequilibrium radiation di usion equations on distorted meshes : Z.
Sheng, J. Yue, G. Yuan. MathSciNet/Mathematical Reviews, MR 2
520 305 (2010k:65178).
5. M. Sussman. (2009). Review of Explicit Hybrid Finite Di er-
ence Schemes From Operator Splitting for Solving Korteweg De Vries
Equations : A. Koross, J. Bitok, M. Oduor, and O. Ongati. Math-
SciNet/Mathematical Reviews, MR 2 492 530 (2010b:65167).
6. M. Sussman. (2009). Review of Direct methods and ADI-preconditioned
Krylov subspace methods for generalized Lyapunov equations : T.
Damm. MathSciNet/Mathematical Reviews, MR 2 464 173 (2009j:65083).
7. M. Sussman. (2009). Review of Preconditioned iterative solver
on the coarsest level of a multi-grid method for high frequency time
harmonic electromagnetic eld analysis : T. Iwashita, K. Yosui, M.
Mori, E. Kobayashi. MathSciNet/Mathematical Reviews, MR 2 395
094 (2009f:65068).
8. M. Sussman. (2008). Review of Energy properties preserving schemes
for Burgers equations : R. Anguelov, J.K. Djoko, J.M.-S. Lubuma.
MathSciNet/Mathematical Reviews, MR 2 371 347 (2008k:65159).
9. M. Sussman. (2008). Review of Convergence of Implicit Di erence
Methods for Parabolic Functional Di erential Equations : K. Kropiel-
nicka. MathSciNet/Mathematical Reviews, MR 2 344 423 (2008g:65110).
10. M. Sussman. (2008). Review of A study of numerical methods for
the level set approach : P.A. Gremaud, C.M. Kuster, Z. Li. Math-
SciNet/Mathematical Reviews, MR 2 322 452 (2008e:65246).
Invited Presentations
1. M. Sussman. (2012, April). Invited presentation to give a talk in the
CalTech math colloquium.
2. M. Sussman. (2012, March). Invited presentation to give a talk in
the NJIT math colloquium.
3. M. Sussman. (2011, December). Invited presentation at workshop
on transport processes on moving interfaces II. (Aachen, Germany).
4. M. Sussman. (2011, September). Invited presentation at workshop
on transport processes on moving interfaces I. (Heidelberg, Germany).
5. M. Sussman. (2011, January). Invited lectures on interface tracking
methods in the workshop Frontier CFD for strongly nonlinear marine
hydrodynamics. (Harbin, China)
6. M. Sussman. (2010, April). Gave lectures on interface tracking meth-
ods in the workshop INDAM intensive period on uid dynamics.
(Catania, Italy)
7. M. Sussman. (2010, March). Japan SIAM (Tsukuba), The develop-
ment of appropriate smoothers for multigrid when used as a precondi-
tioner for CG.
8. M. Sussman. (2009, August). An adaptive multi-phase ow solver
for coupled-ocean atmosphere modeling. Presentation at the workshop
on free boundary/surface problems, Boulder, CO: NCAR.
9. M. Sussman. (2009, July). Overcoming the surface tension time step
constraint when computing incompressible two-phase ows. Keynote
presentation in R. Rao, D. Noble, and T. Baer (chairs), CFD for free
and moving boundaries. Symposium conducted at the meeting of the
USNCCM X, Columbus, Ohio.
10. M. Sussman. (2007, December). Adaptive level set methods for
ship hydrodynamics. Keynote presentation at the Trondheim, Norway
workshop, CFD solvers for unsteady marine applications, capabilities
and challenges: Center for Ships and Ocean Structures.
11. M. Sussman. (2007, November). An adaptive multi-phase ow solver
for incompressible viscous and visco-elastic ows. Presentation at SAMSI
workshop on interfaces, Raleigh-Durham, NC: SAMSI.
12. M. Sussman. (2007, June). A scalable adaptive solver for simulating
the break-up of a liquid jet in a cross- ow. Presentation at the work-
shop on atomization and spray, East Hartford, CT: United Technologies
Research Corporation.
13. M. Sussman. (2007, May). An adaptive multi-phase ow solver for
incompressible viscous and visco-elastic ows. Presentation at Frontiers
in Applied and computation mathematics (FACM 07), Newark, New
Jersey: New Jersey Institute of Technology.
14. M. Sussman. (2005, June). High order VOF height fraction tech-
niques for extracting curvature from the VOF function. Presentation
at conference on free boundary problems, Coimbra, Portugal: Univer-
sity of Coimbra.
15. M. Sussman. (2003, September). Adaptive level set methods for
all-speed ows. Keynote presentation at the Brussels, Belgium, work-
shop on industrial challenges in the simulation of evolving interfaces:
Mathematics, Computing, and Simulation for Industry (MACSINET)
workshop, Vrije University.
16. M. Sussman. (2001, May). An adaptive level set method for ship
waves and underwater explosions/implosions. Presentation at IPAM
Workshop on Geometrically Based Motions in Image Processing, Com-
puter Vision, and Computer Graphics. Los Angeles, CA: IPAM (UCLA).
17. M. Sussman. (2001, January). An adaptive level set method for
simulating ink-jet devices. Presentation at IMA hot topics workshop:
Analysis and modeling of industrial jetting processes. Minneapolis,
Minnesota: IMA.
Contracts and Grants
1. M. Sussman, M. Roper. Computational Design of micro uidic struc-
tures. NSF DMS 300K (incremental 3 year grant August 2010-2013).
2. M. Sussman. Acoustic cross-talk in jetting devices. Funded by Ko-
dak. (2008). Total award: 5K
3. M. Sussman, G. Erlebacher, X. Wang, and D. Kopriva. SCREMS:
High Performance Computing and Visualization. Funded by NSF.
(2007). Total award: 115K
4. M. Sussman. A Computational study of the spray characteristics of a
liquid jet atomized by cross- owing air. Funded by NSF. (2007-2010).
Total award: 322K
5. M. Sussman. Code enhancements to NFA. Funded by SAIC. (2007).
Total award: 13K
6. M. Sussman. Numerical Modeling of underwater implosions. Funded
by ONR. (2004-2006). FSU award: 55K
7. M. Sussman. U.S. Japan Cooperative Science: A computational
study of bubble and drop dynamics in inelastic and viscoelastic non-
Newtonian uid systems. Funded by NSF. (2003-2007). Total award:
46K
8. M. Sussman. Advanced Fluid Modeling Capability for Underwater
shock analysis of Naval Ships, Phase II, STTR grant together with
Weidlinger corporation. Funded by ONR. (2002-2004). FSU award:
120K
9. M. Sussman and M.Y. Hussaini. Numerical methods for microscale
and nanoscale multiphase ow in general geometries. Funded by NSF.
(2001-2005). Total award: 100K
10. M. Sussman. Advanced Fluid Modeling Capability for Underwater
shock analysis of Naval Ships, Phase I and Phase I option STTR grant
together with Weidlinger corporation. Funded by ONR. (2001-2002).
FSU award: 40K
11. M. Sussman. Numerical Modeling of vapor bubble creation and col-
lapse in 3D general geometries. Funded by XEROX. (2000-2001). Total
award: 10K
12. M. Sussman. First-Year Assistant Professor award. Funded by FSU.
(2000). Total award: 10K
13. M. Sussman, E.G. Puckett, A. Edelson, A. Fannjiang, J. Gravner,
D. Stuart. Mathematical Sciences Computing Research Environments.
Funded by NSF. (1997). Total award: 40K
14. M. Sussman and E.G. Puckett. E cient, High Resolution, Numerical
Methods for Free-boundary Problems with Surface Tension. Funded by
NSF. (1997-2001). Total award: 60K.
Host for Visiting Professors and graduate students
1. Dr. Nikiforakis (Cambridge) for two days in January 2008.
2. Dr. Shin Rhee (S. Korea) for two days in 2008.
3. Dr. Kensuke Yokoi (Cambridge) for two days in 2008.
4. Professor Mitsuhiro Ohta, Summer 2002, 2003, 2004, 2005
5. Professor Kuniyoshi Abe, January 2008 to June 2008.
6. Marcel Kwakkel (Netherlands), June 2010.
7. Valeria Artale (Sicily), November 2010.
8. Eva Loch (Germany), August-December 2011.
TEACHING
Courses Taught: Calculus I, Calculus II, Linear Algebra, Advanced Cal-
culus, Ordinary Di erential Equations, Partial Di erential Equations, Engi-
neering Math I, Engineering Math II, Numerical Analysis I, Numerical Anal-
ysis II, Numerical PDE I, Numerical PDE II, Foundations of Computational
Math II.
Undergraduate Directed Individual Study: Adam Segall, Jason Hyde,
Nathan Lay, Anton Souslov, Paul Stewart, David Arthur, Ali Hemmati, Mit-
sutaka Takeda, Chris Ziembko
Graduate Directed Individual Study: Zheng Chen, Samet Kadioglu,
Je rey Anderson, Ren Zhi-wei, Edwin Jimenez, Yaohong Wang, Svetlana
Simakhina, Austen Du y, Matt Jemison.
Chair of Doctoral Dissertation Supervisory Committees
1. Samet Kadioglu, graduated PhD. (2005). Now at Idaho National Labs.
2. Edwin Jimenez, graduated PhD. (2009). (co-advisor) Now a postdoc-
toral employee at the California Institute of Technology.
3. Yaohong Wang, graduated PhD. (2010). Now a postdoc at University
of California, Santa Barbara.
4. Svetlana Simakhina, graduated PhD. (2010).
5. Austen Du y, graduated PhD. (2011). (co-advisor) Now works at Citi-
Labs, Tallahassee.
6. Xiao Chen, graduated PhD. (2011) (co-advisor) Now he is a postdoc
at LLNL.
7. Matt Jemison
Member of Doctoral Dissertation Supervisory Committee: Anna
McGregor (graduated), Viorel Mihalef (graduated), Evan Bollig, Mark Whid-
den, David Shen (graduated), Cesar Acosta (graduated), Yan Yan He, Yan-
ing Liu, Anand Ganesan, Philip LePoudre, Santha Ram Akella (graduated),
Zhenlu Cui (graduated), Heaya Ann Summy (graduated)
Chair of Master s degree Committee
1. Ren Zhi-Wei (2003?)
2. Hanbing Song (2012)
Chair of Undergraduate Honors thesis Committees
1. Ben Goldsberry; thesis successfully defended April 2012.
SERVICE
1. Committee Member, University Faculty Sabbatical Committee, (2006-
2007,2009-2010).
2. Member, Faculty Senate, (2008-2009).
3. Committee Member, Math Faculty Evaluation Committee (FEC), (2009-
2011).
4. Committee Member, Math Faculty Evaluation Committee (FEC), (2006-
2007).
5. Committee Member, Math Curriculum Committee, (2008-2012).
6. Scheduler, Applied Math Seminar, (2007-2010).
7. Committee Member, numerical analysis qualifying exams (2000-present).
8. Editorial Board Member (2005-present). Fluid Dynamics and Materials
Processing.
9. Reviewer of submitted articles to: Journal of Computational Physics,
Journal of Fluid Mechanics, Journal of Scienti c Computing, Physics
of Fluids, Fluid Dynamics and Materials Processing, Physical Review
E, Physics Letters A, Methods and Applications of Analysis, Numerical
Heat Transfer, Computers and Fluids, Theoretical and Computational
Fluid Dynamics, Graphical Models, International Journal of Computa-
tional Fluid Dynamics, Journal of Computers and Structures, Interna-
tional Journal of Computers and Mathematics with applications, SIAM
Journal of Scienti c Computing, ASME Journal of Fluids Engineer-
ing, CiSE Journal, Computer Methods in Applied Mechanics and En-
gineering (CMAME), Biophysical Journal, Journal of Computational
Mathematics, Siggraph 2007, Discrete and Continuous Dynamical Sys-
tems, European Journal of Mechanics-B/Fluids, Numerical Methods
for Partial di erential equations (NMPDE), International Journal of
Multiphase Flow, Journal of Heat Transfer, Philosophical Transactions
of the Royal Society, International Journal of Heat and Mass Transfer,
Communications in Applied Mathematics and Computational Science
(CAMCoS), Fluid Dynamics Research, Scientia Iranica, Communica-
tions in Computational Physics (CiCP), Journal of Aerospace Engi-
neering, Proceedings of the IMechE Part C - Journal of Mechanical
Engineering Science, AIAA Journal, Computing and Visualization in
Science, SIAM Journal on multiscale modeling and simulation.
10. Review of grant applications submitted to: DOE, NSF, DFG, NSERC
(Natural Sciences and Engineering Research Council of Canada), Nether-
lands Organization for scienti c research, French National Research
Agency (body of proposal in French).
11. Proposal panel participant: NSF, DOE, Deutsche Forschungsgemein-
schaft (DFG, www.dfg.de), NIH.
12. ICNMMF Executive Organizing Committee (International Conference
on Numerical Methods in Multiphase Flows) June 12-14 at Penn State
University (2012).
13. Co-organizer SIAM mini-symposium, conference on scienti c comput-
ing February, 2011 (Reno).
14. Co-organizer SIAM mini-symposium, annual meeting July, 2010 (Pitts-
burgh).
15. Co-organizer AMS mini-symposium, sectional meeting, 2004.
16. Co-organizer SIAM mini-symposium, annual meeting, 2001.
17. Vice President of Education, Seminole Toastmasters (2005-2009).
Membership in Professional Organizations: Society for Industrial
Applied Mathematics (SIAM), American Physical Society (APS), American
Institute of Aeronautics and Astronautics (AIAA).