About Me
I am a Scientific Researcher at Stanford University, affiliated with both the Department of Electrical Engineering and the Department of Neurology & Neurological Sciences at the School of Medicine. My mission is to bridge the gap between cutting-edge engineering and clinical medicine to improve patient outcomes.
With expertise spanning biomedical engineering, neural engineering, and brain-computer interfaces, I develop innovative healthcare technologies that translate directly from the laboratory to the bedside. My work encompasses the full spectrum of translational research—from biosensing and diagnostics to assistive devices and rehabilitation systems.
Currently, I lead interdisciplinary projects focused on brain-controlled rehabilitation systems for stroke recovery. By developing closed-loop control algorithms and wearable neural interfaces, my team and I are working to restore motor function and independence to stroke survivors. This work sits at the intersection of flexible electronics, biosignal processing, and machine learning—combining advanced technology with compassionate patient care.
Research Overview
Translational Research in Healthcare Systems
Development of novel healthcare systems with clinical implications in biosensing, diagnostic, assistive, and rehabilitation applications.
Biomedical Circuits and Systems
Medical sensor and instrumentation, wearable technology, and neural engineering.
Biosignals Processing and AI in Medicine
EEG/EMG signals processing using machine/deep learning techniques for brain-computer interface and neurorehabilitation.
Flexible and Stretchable Electronics
Design and characterization of biosensors via stretchable/flexible printed electronics.