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I am a computational neuroscientist with rich postdoctoral and industry experience, bridging computational neuroscience, and translational brain research. I design and lead cross-functional research projects grounded in my expertise in synaptic plasticity, network dynamics, and disease modeling.
My technical skills include multi-scale phenomenological modeling and advanced signal processing of electrophysiological signals, with fluency in Python, MATLAB, C++, and GPU-based computing. I translate complex neuroscience discoveries into practical innovations—evidenced by my inventorship on multiple patents.
I communicate science with clarity and impact through presentations at international conferences, peer-reviewed publications, and STEM outreach leadership.
Driven by curiosity and a passion for discovery, I am eager to advance neuroscience and its applications to improve lives and transform industries.
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I am currently guest editing a topical collection on Computational Approaches to Synaptic Pathology in JoVE, a scientific methods video journal. The collection aims to highlight computational methodologies and their applications in understanding, diagnosing, and treating synaptic pathologies. If you are interested in contributing a video article on your methods, either contact me or submit an abstract here.
