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Chen Jiang

PhD - McGill University
Supervisor
Paul Masset
Co-supervisor
Guillaume Lajoie
Research Topics
Computational Neuroscience
Dynamical Systems
NeuroAI
Probabilistic Models

Publications

Simultaneous detection and estimation in olfactory sensing
Chen Jiang
Matthew Y. He
Venkatesh N. Murthy
Cengiz Pehlevan
Jacob A. Zavatone-Veth
Paul Masset
The mammalian olfactory system shows an exceptional ability for rapid and accurate decoding of both the identity and concentration of odoran… (see more)ts. Previous works have used the theory of compressed sensing to elucidate the algorithmic basis for this capability: decoding odor information from the responses of a restricted repertoire of receptors is possible because only a few relevant odorants are present in any given sensory scene. However, existing circuit models for olfactory decoding still cannot contend with the complexity of naturalistic olfactory scenes; they are limited to detection of a handful of odorants. Here, we propose a model for olfactory compressed sensing inspired by simultaneous localization and mapping algorithms in navigation: the set of odors that are present in a given scene, and the concentration of those present odors, are inferred separately. To enable rapid inference of odor presence in a biologically-plausible recurrent circuit, our model leverages the framework of Mirrored Langevin Dynamics, which gives a general recipe for sampling from constrained distributions using rate-based dynamics. This results in a recurrent circuit model that can accurately infer presence and concentration at scale and can be mapped onto the primary cell types of the olfactory bulb. This frame-work offers a path towards circuit models—for olfactory sensing and beyond—that both perform well in naturalistic environments and make experimentally-testable predictions for neural response dynamics.
2025-11-02
bioRxiv (preprint)
doi.org