Summary
Thomas Fuller is a software engineer and robotics researcher with a decade of experience applying control theory, systems engineering, and AI to real-world autonomous systems. He has designed and implemented path-planning, online search, and coordination algorithms for multi-vehicle drone and submarine missions, bridging embedded systems (Raspberry Pi/Arduino/Pixhawk, ROS) with higher-level Python and Haskell tooling. His background includes V&V for safety-critical navigation software and networking/data libraries in C++ for defense simulations, reflecting strong reliability and systems-integration skills. As a former instructor and PhD candidate, he pairs hands-on prototyping and lab-driven pedagogy with rigorous research methods for algorithm evaluation. Based in New Hampshire, he brings deep signal-processing and control expertise alongside practical experience building hardware-software stacks for GPS-denied navigation and real-time magnetic signal detection. An enthusiast for complex numbers, he favors mathematically grounded approaches to algorithm design and system identification.
10 years of coding experience
7 years of employment as a software developer
Master of Science (MS), Mechanical Engineering, Master of Science (MS), Mechanical Engineering at University of New Hampshire
BS, Electromechanical Engineering, BS, Electromechanical Engineering at Wentworth Institute of Technology