Projects

Vehicle Charger for Longhorn Racing's Electric Racecar

I designed a ground up car charger capable of charging a 600V racecar battery. It provides fast battery charging while managing battery safety systems and CAN communication for charging status. PCBs designed in KiCad, modeled in Solidworks, and deployed for competition use.

Built for use at the Schnitzer Lab at Stanford Medicine for Alzheimer's Research

I designed and manufactured a brain interface circuit board, capable of stimulating the brain of a mouse and recording its feedback. This project involved PCB design, C firmware, and several sensors to record the mouse's reaction.

A ground up blood analysis device intended to test assays of at-home hemodialysis patients.

Includes a sample retrieval cartridge as well as a fully enclosed microfluidic testing array for four common blood tests involved in assessing hemodialysis effectiveness.

A wearable smart device with custom PCB and sensors used for endurance running training.

Uses blood oxygen and heart rate sensors on a custom designed PCB to estimate VO2 max for endurance training and provide training advice.

Predicting Carbon Flux Using Inversely Estimated Target Data With a Neural Network

Model for predicting CO2 flux over North America with the use of historical data and environmental variables. Research completed with the Environmental Engineering Department at NASA. Won 4th place at a state research conference.