Engineer Software Developer
Resume:
Pan Wang
Madison WI *****
Email: ***********@*****.***
Mobile: 817-***-****
An excellent graduate student in Computational Analysis & Modeling with
experience in object oriented software development, GUI development and
mathematical modeling & analysis, and a network professional with success
designing and maintaining network protocols and servers codes, which were
developed on embedded DSP processors. Proven skills to solve problems and
ability to take initiative and act as a strong team player.
Education:
03/2005-11/2008, Louisiana Tech University, Ruston, LA, USA
PhD, Computational Analysis and Modeling, GPA: 3.9/4.0
M.S., Mathematics & Statistics, GPA: 4.0/4.0
09/1997-07/2001, Shanghai Jiao Tong University, Shanghai, China
B.S., Biomedical Engineering
Professional Experiences:
Epic Systems Corporation, Madison, WI 12/2008-present
Software Developer
Serve as team member of ambulatory team. Design, develop and maintain the
healthcare (EHR) client and server application for the clinic visit
workflows by using VB, Cache and some HTML and CSS technologies.
Shanghai Longlin (MPI) Communication Company, Shanghai, China 07/2001-
01/2003
07/2001-01/2003, Research & Development Engineer
Served as team member of MediaNet Protocols Team. Designed, developed and
maintained the protocols and codes for VOD Server and Multicast Server on
the new MediaNet network, which was based on a highly efficient protocol
for the delivery of high-quality multimedia communication services.
08/2002-01/2003, R&D Group Administrator
Designed the standard coding template for all network servers on the
MediaNet. Promoted to group administrator, the group was responsible for
the development and maintenance of the protocols and codes for VOD Server,
Broadcast Server, and Equipments Management Server.
Academic Research Experiences:
03/2007-11/2008
Independently designed, developed and maintained an image processing
software, SES IMage 1.0, which can display, edit, analyze and process
images. One of prominent features of SES IMage is that it can do
segmentation and information extraction for microarray image analysis.
05/2006-11/2008
Developed Partial Differential Equations (PDE) based numerical methods and
computer programs for digital image smoothing, enhancement, and
segmentation.
09/2007-07/2008
Developed a numerical method and computer program for studying thermal
deformation in single- and double-layered 3D microspheres exposed to
ultrashort pulsed lasers.
01/2008-04/2008
Using nonlinear regression method, fitted one- and two-compartment models
that were based on a species mass balance to the experimental data in order
to select the best model that simulates the dynamics of dextran release.
03/2005-04/2006
Developed a single-layer homogenous spherical computer model and a four-
layer non-homogenous spherical computer model to simulate the depth
detection of dipoles in the brain using pseudo-bipolar electrodes.
09/2000-07/2001
Developed a courseware for Digital Image Processing using Authorware and
Delphi, which covered the class notes and image processing examples. This
courseware was awarded 2002 Shanghai (China) Excellent College Courseware
Prize.
Skill Set Summary:
C++, VB, Cache, HTML, Borland Delphi, and the basic knowledge of SQL, Perl
and JavaScript.
Publications:
P. Wang, S. Ni, M. Paun, W. Dai, and A. Paun, Spotted cDNA microarray image
segmentation using ACWE.
P. Wang and W. Dai, A Hyperbolic Two-Step Model Based Finite Difference
Method for Studying Thermal Deformation in a 3D Micro Sphere Exposed to
Ultrashort-Pulsed Lasers, Numerical Heat Transfer.
S. Zhang, P. Wang, and W. Dai, A Finite Difference Method for Studying
Thermal Deformation in 3D Double-Layered Micro Structures, The Open Applied
Mathematics Journal.
R. Nassar, J. Palmer, Y. Wu, W. Dai, P. Wang, and M. J. McShane, Modeling
Mass Transfer of FITC Labeled Dextran from Polyelectrolyte Microcapsules,
Chemical Engineering Communication (CES) Journal.
X. Du, W. Dai, and P. Wang, A Finite Difference Method for Studying Thermal
Deformation in a 3D Micro-Sphere Exposed to Ultrashort-Pulsed Lasers,
Numerical Heat Transfer.
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