Eyan Documet
Eyan Documet
Mechanical Engineering graduate (BSME '25) specializing in mechatronics and R&D.
Hi, I’m Eyan 👋
I’m a recent Berkeley BSME with experience in manufacturing, robotics, and research. I’ve worked on many projects, from firefighting robots to next-gen particle accelerators. My engineering approach centers on a first-principles, analytical framework to modularize complex systems. I have a proven track record of managing full-cycle project ownership; from leading the R&D and PLM release of 100+ part assemblies for particle accelerator magnets at LBNL to developing underactuated robotic systems and autonomous fire suppression hardware.
Below, you’ll find examples of my previous work. Click the cards to view more!
I’m looking for work! Recruiter or hiring manager? Contact me!
🏢 Work Experience
Intern - Lawrence Berkeley National Laboratory
Led R&D for a novel particle accelerator magnet assembly, transitioning the project to a completed prototype. Independently managed the release of 100+ electromechanical parts into PLM (Creo Parametric/Windchill) and performed advanced materials characterization using MATLAB and Python scripting.
Electromechanical Systems • PLM Management • R&D
Reader - ME154/254: Thermophysics for Applications
Graded assignments and proctored exams for 30+ graduate and undergraduate students, providing technical feedback on thermodynamics to support learning outcomes.
Leadership • Thermophysics
🛠️ Engineering Projects
Select engineering projects showcasing design, experimentation, and system-level problem solving.
PyroBot Fire Suppression System
An autonomous turret for fire detection and water-based suppression in hazardous environments using embedded systems (C++), Arduino, and DFMA principles.
Embedded Systems • DFMA • CAD
Gyroid Measurement Experiment
An experiment testing 3D-printed structures engineered for maximum energy absorption. Utilized experimental design (DOE) and statistical modeling in MATLAB to validate performance.
Design of Experiments • Statistical Modeling • FDM
Inchworm-Inspired Quasi-Static Robot Feasibility Study
Design project for a two-link robotic climber with plug-and-play assembly and MATLAB-based motion planning and kinematics for complex environments.
Motion Planning • Simulation • Mechatronics
⛳ Clubs & Organizations
Member - UC Berkeley Solar Vehicle Team (CalSol)
Participated in rear-suspension subteam design in Solidworks for Gen 11 solar-powered racecar.
Engineering • Design • Dynamics