About Me
Hi everyone! I’m an undergraduate Electrical Engineering student at the University of Maryland with a strong interest in both electrical and biomedical engineering. This website includes some projects to highlight my recent work.
My core technical interests include analog and mixed-signal IC design, energy-efficient computing for resource-constrained environments, and real-time embedded signal processing for physiological monitoring. I have a background with end-to-end engineering across diverse domains, including semiconductor chip design, medical device development, and spacecraft systems. I’m also interested in translating cutting-edge research into practical solutions, with experience in technology commercialization, customer discovery, translational grants, and clinical collaborations.
I currently conduct research with Dr. Sahil Shah at the University of Maryland, leading the development of a novel wearable for continuous vascular surveillance, aimed at addressing unmet clinical needs in dialysis care. Our seminal paper outlining this work can be found here. Recent efforts have focused on commercialization through NSF I-Corps and MII Phase I grants, supporting company spinout formation. In 2024, I also presented a spotlight funding pitch at the National SBIR Innovation Summit in Austin, TX, highlighting our technology’s application in hemorrhagic shock prediction (view the pitch deck here). Following industry interest, a provisional patent was filed and an IP licensing agreement was secured earlier this year with a commercial partner.
Recently, I finished a 7-month stint as a spacecraft engineering co-op at the Johns Hopkins Applied Physics Laboratory, helping design, build, and test electronics for interplanetary NASA missions, mainly NASA’s nuclear-powered Dragonfly rotorcraft mission to Titan. Prior to this, I worked on spacecraft systems software at the US Naval Research Lab under a Secret clearance. Before college, I was a Bio-MEMS research assistant under Professor Abraham Lee, where I worked on a novel intracellular delivery microfluidic platform (AESOP).
Beyond academics, I enjoy golf, cooking, history, and hiking, and I currently help run the UMD Juggling Club! Check us out here!