Doug is a renaissance nerd, using knowledge from science and mathematics to direct new projects in the arts and vice-versa. He received two S.B. degrees from MIT, in biology and chemical engineering, and has a Masters in Software Engineering at Brandeis. He has extensively exploited art and science educational opportunities available in Boston to pursue his visions. As a result, Doug is developing mathematics powerful enough to go head-to-head with Einstein, backed up by software that can be seen on the web, has a first-rate art collection, and he cruises through Boston in a bicycle of his own design.
Masters Degree in Software Engineering, Brandeis University
2 S.B. degrees in Biology and Chemical Engineering, MIT
Computer languages: Python, Perl, and C
Operating systems: Macintosh, Linux
Lead Spider, Black Duck Software, Burlington, MA 2004-present
Black Duck was purcased by Synopsys Inc in 2017 for $565 million
The 9th employee of a startup that has grown into an emerging international company. Have been involved in constructing the knowledgebase of all open source projects. Work involves a mix of adding projects using in-house tools, looking to automate processes, and working on the quality of the Postgres database. Responsible for monthly releases of two product lines.
Experienced in Test Driven Development. Works daily with PostgreSQL. Working knowledge of Jenkins, Airflow, and Flask.
Assistant Manager, Customer Accounts, Software Tool & Die, 1998-2002
The oldest Internet service provider (ISP) on the planet is located in Brookline, MA. Doug helped trouble-shoot a range of problems on PCs and Macs. He wrote Perl scripts for the billing department, often on his own initiative.
Constructed all aspects of web site devoted to a new approach to physics. Developed mathematics to manipulate 3D space and time consistent with known laws of physics. Promoted interest in site, with over 3000 visits in a year from every continent.
Have produced more than 150 videos with over 350,000 views. Provides the main channel for the "Stand-Up Physicist" educational project. These 20+ minute shows have aired on two local Massachusetts cable channels (Acton and Auburn).
An open source project to that makes animation out of quaternion expressions. Remember analytic geometry, where writing y = x[sup]2[/sup] generated a picture? The same expression can now generate a short film. The development of this project has halted as a complete rewrite is needed.
Designed web site for condominium association using an open source Content Management System (CMS) called Drupal. Has slide shows and video walk throughs of units. All condominium documents and newsletters are online. Owners can see password protected minutes.
Doing physics with quaternions
This research project entails trying to reformulate all the fundamental equations of physics. The reason for such a large task is to start from one core hypothesis: events from any object in spacetime are described by the mathematics of a division altegra, known as the quaternions. This is an old goal, but Doug has made a number of new insights, including a new way of expressing the Maxwell equations.
In 2015, developed a new approach to gravity. Minkowski space-time has its core invariance principle, the light-cone. Energy-momentum together form an affine space for space-time. Here the invariance has zeros along the energy and momentum axes. All the inviants look like the light-cone rotated by 45 degrees. It is my proposal that this is gravity, a symmetry where one uses escape velocities for the hypberbolic curves.
Research has begun on using quaternion series (a semi-group with inverses) to do all the work of quantum mechanics. There are world-lines outside of an observer at the origin of space-time (0, 0, 0, 0). It it my proposal that the machinery of quantum mechanics is desgined to be able to make precise statements about space-like world lines.
Attended the Second Meeting on Quaternionic Structures in Mathematics and Physics in Roma, Italy, September 1999. Presented a paper entitled "Maxwell's vision: electromagnetism with Hamilton's quaternions", available at http://www.univie.ac.at/EMIS/proceedings/QSMP99/index.html.
Working to develop a broad understanding of physics from a broad range of learning institutions in Boston, including Harvard Extension School, Harvard University, MIT, and BU. Courses included the Foundations of Physics, Waves, Particles and the Structure of Matter, An Introduction to Modern Astrophysics, Special Relativity, General Relativity, Electrodynamics, Introduction to Quantum Mechanics, High Energy Physics and Group Theory and Its Applications to Particle Physics.
Harvard School of Public Health, 1990-1996
Conducted independent research on DNA recombination in yeast under the guidance of Prof. Jac Nickoloff. Helped formulate goals and new methods needed for the project. Techniques required included: plasmid constructions (over 200!), yeast strain constructions, DNA sequencing, PCR, and Southern blots. Maintained efficient lab by designing databases for plasmids and chemical inventory. Ordered supplies and used Quicken to produce monthly financial statement.
Whitehead Institute for Biomedical Research, 1984-1987
Laboratory technician for Prof.. Richard A. Young. Work featured in NOVA documentary on leprosy, the New York Times, and in ten technical publications. US patent granted for 5 genes cloned and for epitope mapping technology first used in the project. Sequenced second largest subunit of yeast RNA polymerase II.
Managed Macintosh personal computers and Mac/mainframe interface for three laboratories.
University of Colorado, Boulder, 1987-1989
Awarded Fellowship by the Office of Naval Research to pursue a Ph. D. in Molecular, Cellular and Developmental Biology. Independently drew up thesis topic on the role of RNA recombination in evolution. Designed and built automated thermal cycler for PCR. Organized Graduate Student Symposium on "Pathogen Strategies."
Massachusetts Institute of Technology, 1980-1984
Two S. B. degrees, in Biology and Chemical Engineering. Concentrated in Creative Writing. Gained working experience in FORTRAN programming, VMS and UNIX operating systems.
The First National Juried Exhibition, Lancaster Museum of Art, Lancaster, PA,
The painting "Turquoise Einstein" was one of 60 works chosen from over 300 submissions.
When Art and Science Collide, Newton, MA, Feb. 5, 1997
Gave a guest lecture at Lasell College on "Pop Science."
ArtWorks, First Impressions Gallery, Boston, MA, Jan. 1, 1997
The multimedia work, "A Brief Definition of Time", was part of a First Night event sponsored by the Massachusetts Interactive Media Council (MIMC).
An open studio at 50 Ackers Ave., Brookline, MA., Sept. 21, 1995
Forty guests were treated to food, wine, and Grand Marnier chocolate truffles. Performed Waltz No. 1, written and choreographed by the artist.
Duramount and Other Adhesives, Mass. Art, May 15, 1995
Student group show at Mass. Art. Displayed six works, including two performance pieces using original music.
Two liter daffodils, Whitehead Institute, 1987-1992
An uncommissioned sculpture for the front courtyard used flasks normally used for bacteria.
Courses taken at the School of the Museum of Fine Arts and Mass. Art in computer and electronic art, collage, cold glass work, welding, clay sculpture and business skills. Has taken private lessons in singing and piano while learning how to Lindy Hop.
Memeber of the UUUkes
Museum of Science
Participate in the Eye Opener program which involves giving a tour of the museum for a small group of Boston second graders every Tuesday. Worked as an interpreter for the Leonardo da Vinci: Scientist, Inventor, and Artist exhibit, which entailed explaining Leonardo's ideas and methods to a general audience.