Research Portfolio
My research sits at the intersection of ultrasonics, acoustic wave propagation, and biomedical engineering. Below is a curated portfolio of my key research contributions — spanning transcranial ultrasound therapy and monitoring, acoustic holography, wearable sensing, and vibroacoustic modeling.
Non-Invasive Intracranial Pressure Monitoring via Parametric Acoustic Arrays
Journal In Prep
A feasibility study on using parametric acoustic arrays for non-invasive intracranial pressure (ICP) monitoring — eliminating the need for invasive catheter-based measurements.
Acoustic Holography in the Megahertz Range with Optimal Lens Topologies
Journal
Developed optimal acoustic hologram lens designs with nonlinear acoustic feedback for high-precision transcranial focused ultrasound therapy at megahertz frequencies.
Breaking the Skull Barrier: Parametric Arrays for Transcranial FUS Monitoring
Journal
Introduced a parametric array framework that enables non-invasive, real-time monitoring of transcranial focused ultrasound therapy — overcoming the skull's acoustic barrier.
Trans-Skull Volumetric Passive Acoustic Mapping
Journal
First experimental demonstration of 3D passive acoustic mapping through the human skull — enabling volumetric monitoring of cavitation activity during transcranial ultrasound therapy.
Wearable Ultrasound Sensing for AR/VR Platforms
Industry
Designed and prototyped next-generation wearable ultrasound transducer arrays and real-time signal processing algorithms for AR/VR applications at Meta Reality Labs Research.