A.J. Anonymous - a Resume
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A. J. Anonymous, Ph.D.
2977 Octagonal Route
San Diego, CA 92739
Tel. (858) 762-1080 (home)
(858) 346-8696 (cellular)
E-mail anonymous@san.rr.com
Website http://www.cohp.org
Education
University of Michigan, Ann Arbor, Michigan
Ph.D., Chemistry - 1989
University of California, Los Angeles, California
B.Sc., Chemistry, B.A., Biology - 1981
Technical Summary
Computer Languages: C, C++, Fortran, Java. SVG, XML, HTML, Javascript and some UNIX scripting, COM, Perl.
Integrated Development Environments: Microsoft Visual C++; Visual J++;
Microsoft Foundation Classes (MFC).
Platforms/Operating systems: UNIX - Silicon Graphics, Linux, IBM; Windows 95, 98, 2000.
Internet-related: HTML, Java, client-side Javascript, Java Server Pages, CGI, SVG, XML,
web page design and development.
Expert in algorithm development including molecular modeling applications
Professional Experience
Accelrys, Inc.
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December 2002 to February 2003
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San Diego, California
Contracting consultant
Discovery Studio Structure Based Design Project (DS SBD)
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Worked in a team effort to develop a new product for structure-based design of pharmaceuticals
using existing scientific software. This effort required porting to Windows NT, Linux and IBM
Linux and IBM said algorithms as well as development of a new UI for the Windows-based client.
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The relevant technologies are numerous - C++, C, Fortran, IDL, COM, HTML, javascript, CORBA,
and relational database (Oracle).
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The software was developed to run on a Windows-based client and either a Windows NT or a
UNIX-based server (Silicon Graphics, Linux, IBM).
Peregrine Systems, Inc.
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July 2000 to June 2002
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San Diego, California
Product development engineer
Stacking algorithms project
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Performed background research into, and developed the software for solving the stacking problem
using an array of novel algorithms. Quadratic affinity costs, resource availability constraints,
and moving costs are considered in any permutation and with any set of weight factors in the
construction of acceptable solution vectors.
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The relevant technologies include a thorough knowledge of JAVA programming and linear algebra.
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A novel variant of the simplex method is used when only linear resource constraints are specified
and forms the basis for publishable material were it not for the proprietary nature of the product.
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A time-dependent variant of the stacking algorithm was developed that may be used,
with some refinement, to solve the (very) difficult move sequencing problem.
The time-dependent algorithm relies upon analogies made with (time-dependent) molecular dynamics simulations.
The latter are a key computational tool in studies of drug-receptor interactions.
Scheduling algorithms project
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Developed software to solve complicated scheduling problems in the time domain.
This includes the consideration of task-task shadowing, and the existence of excluded zones within which tasks
are disallowed.
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The relevant technology is JAVA programming involving multiple Java packages and a dozen well-defined,
object-oriented Java classes. This is not simply a Java applet running on a web page!
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The underlying algorithms are extremely efficient and are a testimony to the art of scientific programming
at its finest.
Scalable Vector Graphics projects (SVG)
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Several small-scale projects receive XML data on input and render it in visually appealing graphic format
that is fully interactive using an SVG tree that is generated on-the-fly at run time.
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The relevant technologies are XML; SVG; HTML; and client-side javascript.
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Examples include dynamic generation of ANY year or monthly calendar; a color widget that generates
user-defined colors using scrollable, mouse-activated joysticks; a Gantt plot that enables one to translate
and dilate along the time-axis to an infinite degree; SVG-based rendering of solutions to the
stacking problem (see above); and an automated color gradient generator.
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These SVG projects are among the most advanced uses of this new language to date.
I taught myself SVG at Peregrine Systems and completed these projects in three months.
CACI
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May 2000 to June 2000
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San Diego, California
Principal engineer
FAA False Radar Echo Project
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Developed software to distinguish between true radar returns and false echoes that represent ground clutter
at commercial airports.
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The relevant technologies include pattern recognition, image processing, as well as a thorough understanding
of radar theory,
atmospheric propagation, and geometric ray-tracing.
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The software was developed in C++ to run in MS Windows.
NETROLOGIC, Inc.
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July 1998 to April 2000
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San Diego, California
Senior scientist
Medicinal Plant Project
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Acted in several key roles under an NIH Phase II Grant whose goal was to provide an automated means of
identifying flowering plant species based on leaf and vein shapes and patterns.
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The relevant technologies include pattern recognition, image processing, neural networks,
as well as a thorough understanding of botanical taxonomic methods and vascular plant morphology.
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As a knowledge engineer, the link was made between expert identification of plant species and the
analogous mathematical equivalent. This step was crucial to success of the project -
imparting to the computer the steps taken by a botanist in identifying plants based on leaf morphological features.
As a software developer / integrator the following tasks were accomplished:
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Reverse-engineered and ported to Windows UNIX-based C code designed to implement the above technologies.
The new code was written in C++.
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Developed C++ software in Windows and validated its utility to implement the above technologies.
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Statistical methods included feature selection and extraction; cluster analysis; principal components analysis;
Fourier analysis; Gabor filters; texture mapping; fractal analysis; and neural networks.
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Novel tools were developed specifically for higher order leaf vein analysis.
Cost Analysis Project
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Conceived and developed a mathematical model for predicting the revenue stream and expenses of the
telephone company (to which we had contracted) by developing algorithms for estimating the fraction
of blocked telephone calls given a specified telephone traffic intensity and number of available channels.
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Developed and debugged algorithms to generate financial performance scenarios based on the mathematical model
using C++ on a platform independent system.
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Documented the models and the resulting financial performance scenarios in a series of technical memoranda.
Speech Recognition Project
- Researched background material for development of speech recognition algorithms.
- Designed and developed a speech recognition multi-platform application utilizing C++ and incorporating
wavelet technology.
- Developed and tested the speech recognition algorithms for digit recognition over noisy transmission lines.
Virtual Chemistry, Inc.
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March 1998 to May 1998
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San Diego, California
Software engineer (subcontractor)
- Debugged and validated the utility of a molecular modeling software package running in Windows,
receiving as input a two-dimensional drawing of a molecule and, based upon classical force fields
that determine the preferred lowest-energy conformations, results in a three-dimensional structure of
potential value for additional development (lead compound generation, etc.).
1) The original program suffered from severe problems related to chirality, i.e. the fact that some
molecules come in pairs that are mirror images of one another. The program often yielded 3-D
structures with the wrong "handedness" at up to several chiral atoms (usually carbon).
2) Documented the errors using a test suite of molecules (53 total) from the Brookhaven PDB (Protein Data Bank).
Based upon my knowledge of organic chemistry and computer programming I modified the source code to
eventually eliminate all the chirality errors for the test set.
- This work involved C, C++ languages and the Visual C++ IDE (integrated development environment).
Molecular simulations, Inc. (formerly Biosym Technologies, Inc.)
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1992 to 1998
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San Diego, California
Scientific programmer / Scientist
California Institute of Technology
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1989 to 1992
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Pasadena, California
Research fellow - Chemistry Department
- Performed postdoctoral research in quantum dynamics of molecules under Professor R.A. Marcus (Nobel laureate).
- The "channel three" problem regarding the intermolecular vibrational relaxation of
S1 excited state benzene was considered.
- Two papers were published with Prof. Marcus with a third being written prior to my employment
at Biosym in San Diego.
- This work employed Fortran and the Cray supercomputer at the Jet Propulsion Laboratory.
Awards
- Bantrell Prize Fellowship (California Institute of Technology) - 1989
- Graduate Student of the Year (University of Michigan) - 1988
- Phi Beta Kappa (summa cum laude, UCLA) - 1981
- First Place California in an examination for Chemistry scholarship to UC Santa Barbara.
- First Place Southern California in a contest for rapidly solving
mathematical problems in one’s head (for high school students).
- First Place Los Angeles County in chess playing (for junior high students).
Languages
- Fluent in Spanish
- Reading knowledge of French, Hebrew, Russian
Hobbies
- Very active in mountain climbing.
In addition, I conceived of, developed,
and currently maintain a popular website for county highpointers,
cohp.org - that is visited and used by about
200 climbers for gathering and sharing information.
- Enjoy gourmet food, cooking and baking.
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