Durham, NC · Duke University, Pratt School of Engineering
Ege Ozemek
Biomedical engineer building medical devices from µV-level firmware to full-stack infrastructure.
the live signal running down this page is real DSP — the same sense → filter → detect → pace chain as my cardiac pacemaker
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ABOUT
I’m a biomedical engineering senior at Duke (Pratt School of Engineering) who builds medical instruments end to end — from microvolt-level firmware on an RTOS to the full-stack infrastructure and signal processing that turn a raw biosignal into a decision.
That range is the point: embedded C and PCB design on one end, Flask/Linux data pipelines and on-device ML groundwork on the other, and DSP and imaging (OCT, MRI, X-ray) in between. I’ve worked across it in the lab (a BLE tympanometer, a closed-loop pacemaker), in research (neuroengineering, tumor–immune modeling), and in industry (Canon Medical, the Turkish Ministry of Health).
I care about instruments that hold up outside the bench — validated on real hardware and honest about what’s actually measured. I’m looking for medical-device and industry roles where I can own a signal from the electrode to the interface.
FEATURED · TRY IT
A pacemaker's signal chain — live
One of two flagship devices I built. This is its real DSP: click through sense → clean up → find beats → pace and watch a noisy heart signal become a clean paced rhythm. It runs the same filtering and beat-detection as the hardware.
Raw signal straight off the electrode — buried in noise, drift, and 60 Hz hum.
THE WORK
The rest, if you want the depth
Imaging, research, hardware, the tympanometer in full, and more — on one page, so this one stays quick.