I am a computational neuroscientist. Innovating tools of electrophysiology and molecular neuroscience, I model the neural circuits responsible for decoding phonemes from sound. I'm leading the development of DACx, a "digital twin" of the mouse auditory cortex. I aim to translate this work into new neuromorphic AI systems for real-time speech recognition, speech-to-text, and automatic captioning. I've also developed the first statistical regression model for spatial transcriptomics data which allows for detecting between-group effects on the spatial distribution of gene expression.
In a past life, I worked in a psychophysics lab on movement s…
I am a computational neuroscientist. Innovating tools of electrophysiology and molecular neuroscience, I model the neural circuits responsible for decoding phonemes from sound. I'm leading the development of DACx, a "digital twin" of the mouse auditory cortex. I aim to translate this work into new neuromorphic AI systems for real-time speech recognition, speech-to-text, and automatic captioning. I've also developed the first statistical regression model for spatial transcriptomics data which allows for detecting between-group effects on the spatial distribution of gene expression.
In a past life, I worked in a psychophysics lab on movement sonification in motor control (York University), tried my hand at a tech startup, and gained an international reputation for my work in the philosophy of mind with the Network for Sensory Research (University of Toronto) and the Centre for Philosophy of Memory (Université Grenoble Alpes).
