SafeMed is a fully functioning automatic pill organizer designed to assist seniors (65+) in managing medication schedules safely and independently.
The system uses embedded control logic, a keypad interface, and a physical dispensing mechanism to automate medication delivery and reduce user error.
I designed and built the entire prototype, including electronics integration, enclosure design, and system behavior.
- Automated medication dispensing system
- Keypad-based interface
- Integrated electronics + control logic
- Full physical prototype build
I am a member of the Formula Buckeyes Formula SAE team at The Ohio State University, where students collaboratively design, build, and test a competitive formula-style race car. The team combines mechanical, electrical, software, and manufacturing engineering to develop a fully functioning vehicle for intercollegiate competition.
As part of the low-voltage electronics team, I work on integrating and supporting electronic systems used throughout the vehicle. This includes working with wiring, embedded electronics, and system-level problem solving in a collaborative engineering environment.
- Contribute to the low-voltage electronics systems on the vehicle
- Collaborate with multidisciplinary engineering subteams
- Support wiring, integration, and electronics-related tasks
- Gain hands-on motorsports engineering experience
Learn more about the team here: Formula Buckeyes Website
This SkillsUSA project focused on designing a practical engineering solution for agriculture. I built a prototype attachment using Arduino circuitry and a physical cardboard model to demonstrate how a drone-based fertilizer spreading system could help farmers cover rough or hard-to-reach terrain.
The project helped me strengthen my skills in electronics, prototyping, and turning an idea into a working proof of concept. It also gave me experience thinking through real-world engineering problems and designing technology with a practical use case.
- Designed and assembled a prototype model for a drone-based fertilizer attachment
- Integrated Arduino hardware, wiring, and battery-powered electronics
- Built a physical structure to demonstrate the concept and component layout
- Focused on a real-world farming problem involving difficult terrain
- Presented the concept through SkillsUSA competition work