JAESUN G EOM
JEC ****, *** * St., Troy, NY 121**-***-*** 8038 http://www.rpi.edu/~eomj
th
abmdzs@r.postjobfree.com
ACADEMIC EXPERIENCE
RENSSLAER POLYTECHNIC INSTITUTE (RPI) Troy, NY
Postdoctoral Research Associate. Advisor: Dr. Suvranu De Aug, 2008–Present
UNIVERSITY OF CALIFORNIA, IRVINE Irvine, CA
Postdoctoral Research Associate. Advisor: Dr. Satya N. AtluriAug, 2007–Aug, 2008
KAIST (KOREA ADVANCED INSTITUTE OF SCIENCE & TECHNOLOGY) South
Korea
Ph.D. in Mechanical Engineering, computational mechanics Mar. 2000–Feb 2007
Dissertation: Development of Constant Strain based Simplex type Elements
KAIST South Korea
M.S. in Mechanical Engineering, computational mechanics Mar. 1998–Feb 2000
Thesis Title: Development of a finite element postprocessor with stress recovery
KAIST South Korea
B.S. in Mechanical Engineering Mar. 1994–Feb 1998
Honors Title: An optimal body frame design of the agile maneuvering micro mouse
RESEARCH EXPERIENCE
RENSSLAER POLYTECHNIC INSTITUTE (RPI), Troy, NY Aug, 2008–Present
Postdoctoral Research Associate in the group of Professor De
Department of Mechanical Engineering, Advanced Computational Research
Laboratory
Developed and validated computational human respiratory (lung) model
including patient specific finite element mesh generation from 4D medical
imaging data, constitutive material model optimization, and contact algorithm
selection for radiation dosimetry funded by NIH; Provided guidance and
leadership to two graduate students in Prof. Xu’s group
Developed and applied methods to quantify in vivo patient specific mechanical
property of soft tissue and tumor from 4D CT imaging; analyze and interpret
respiratory physiological data
Developed discontinuous Galerkin FEM for Boltzmann transport equation and
structure interaction in the biological tissue
UNIVERSITY OF CALIFORNIA, IRVINE, CA Aug, 2007–Aug, 2008
Postdoctoral Research Associate in the group of Professor Atluri
Department of Mechanical Engineering, Center for Aerospace Research and
Education
Differentiation and integration in Meshless Local Petrov Galerkin (MLPG)
method
Developed MLGP application to fracture mechanics
AIST (National Institute of Advanced Industrial Science and Technology), Japan Jan,
2007
Visiting Researcher in the group of Dr. Mikami Masuhiro
Research Institute for Computational Sciences
Research on Molecular Dynamics simulation for Self assembly of patchy
particles
KAIST Feb, 2000–Feb, 2007
Department of Mechanical Engineering, Computer Aided Structural Analysis and
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Visiting Researcher and Research Assistant
Research on MCP optimization for the reliable assembly of vehicle for Hyundai
Motors using design of experiment method with NASTRAN analysis
Developed optimization scheme of spot welds arrangement in BIW and other
part with durability and stiffness for General Motors incorporating with DOE,
DOT, FE Fatigue, and NASTRAN
Developed thermo mechanical transient FE model of adhesive (RTV88)
bonding, including for UMAT of ABAQUS and performed mechanical
experiments for thermal resistance adhesive funded by Agency for Defense
Development, Korea
Provided dental simulations including Implant, Mastication and Corticotomy
using ABAQUS
Development of a Nonlinear Finite Element Analysis Program with shell with
stiffener element for oil liner structural analysis, Korean ship registration
Ph.D. Dissertation: Development of Constant Strain based Simplex type Finite
Elements
Development of high performance triangle and tetrahedral finite element from
constant strain mode and partition of unity method
FEA SOFT, South Korea May, 2000–Aug, 2005
Software developer and CAE analyst
Developed shell elements with drilling dof, tetrahedral element, linear buckling
analysis module incorporating with eigensolver, Developed GUI, visualization
module, patch based stress recovery algorithm with composite plate and shell
element
Project management and requirements gathering; Bug fixing, and; Interaction
with customers and field office support personnel
S E L E C T E D P U B L I C AT I O N
Eom, J., Shi, C., Xu, X.G., De, S., Predictive modeling of lung motion over the entire
respiratory cycle using measured pressure volume data, 4D CT images, and finite
element analysis, Medical Physics, in press.
Eom, J., Shi, C., Xu, X.G., De, S., Modeling respiratory motion for cancer radiation
therapy based on patient specific 4DCT data, MICCAI 2009, Lect. Notes Comput. Sci.
5762, 2009, 348 355
Eom, J., Ko, J., Lee, B.C., A macro plane triangle element from the individual element
test, Finite elements in Analysis and Design, Vol 25, Issue 6 7, 2009, 422 430.
Ko, J., Eom, J., Two level preconditioner via a rigid body based aggregation for the
Schur complement system, International Journal for Numerical Methods in Biomedical
Engineering, Vol 26, Issue 6, 2008, 740 751
Eom, J., Ju, B.H., Choi, N., Park, J.M., Lee, B.C., Byun, H.B., Optimization on the spot
welded configuration of vehicle components considering the structural performance”,
Key Engineering Materials, Vol 326 328, 2006, 957 962
P R O G R A M M I N G A N D A N A LY T I C S K I L L S
Computational modeling of continuum mechanics, convection diffusion problem, and
neutron transport problem using FEM, DGFEM, Mesh free method (MLPG), Point
collocation and FVM.
Experiences on developing commercial FEM software with Fortran 77/95, C, C++
(OpenGL, Qt, MFC) Python (SciPy, NumPy), Maple, Mathematica, Matlab, Mathcad,
SVN, Mercurial
CAE software – COMSOL, ABAQUS (API scripting and user subroutine), NASTRAN,
ANSYS, FEMAP, Altair/HYPERWORKS, PATRAN
CAD software –CATIA, NX, Solidworks, Autocad
Medical Imaging tool ITK SNAP, 3D Slicer, IA mesh