I combine neuroscience, signal processing, and machine learning to decode the neural pathways of hearing. My research centers on speaker–listener brain coupling and auditory temporal integration during naturalistic communication — using EEG, fMRI, and computational modeling. When I'm not in the lab, I'm behind the console producing music and designing game audio.
- Postdoctoral Research Scientist — Psychiatry & Behavioral Sciences, Stanford Medicine
- Ph.D. in Biomedical Engineering — University of Rochester; novel methods for deriving the auditory brainstem response (ABR) to naturalistic speech & music
- Prior industry — Meta Reality Labs, evaluating auditory experiences on AR/VR wearables
- Music producer & sound designer — composition, game music, and music-visual art
Auditory Neuroscience · Hearing Science · Neural Encoding of Speech & Music
Auditory Brainstem Response (ABR) · Psychoacoustics · Speech Communication
EEG · fMRI · Computational Modeling · Signal Processing · Machine Learning



