Building things
that move.
Mechanical engineer focused on robotics, embedded systems, and precision manufacturing. I design, machine, program, and assemble — from CAD to working prototype.
maker by instinct.
I'm drawn to the intersection of mechanical design and embedded control — where physical hardware meets firmware. My work spans from designing planetary gearboxes in SolidWorks to writing bare-metal C on STM32 microcontrollers to control BLDC motors over UART.
I believe in understanding systems from first principles. Whether it's tuning PID gains on a motor controller, selecting toolpaths in Fusion 360 CAM, or analyzing transmissibility data in MATLAB, I want to know why it works, not just that it works.
CAD / CAM
SolidWorks, Fusion 360, CNC toolpath generation, GD&T
Embedded
STM32 HAL, UART/SPI/I2C, ODrive, motor control, sensor integration
Fabrication
CNC milling, lathe, waterjet, 3D printing, manual machining
Analysis
MATLAB, vibration testing, FRF analysis, uncertainty propagation
Georgia Institute of Technology
Coursework in vibrations, manufacturing, dynamics, and experimental methods. Hands-on machine shop and CNC experience.
Independent Projects
Electric go-kart embedded controls, robotic arm kinematics, cycloidal gearbox design, and custom electronics — all self-directed from concept through fabrication.
University of Virginia
Foundational engineering and sciences coursework.
something.
Open to internships, research positions, and collaboration on interesting engineering problems.