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Architectural Constraints on Recurrent Network Dynamics

Offered By: Institute for Pure & Applied Mathematics (IPAM) via YouTube

Tags

Computational Neuroscience Courses Nonlinear Dynamics Courses Network Architecture Courses Neuromodulation Courses Bifurcation Theory Courses Combinatorial Geometry Courses

Course Description

Overview

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Explore the intricate relationship between network architecture and dynamics in recurrent neural networks through this illuminating lecture by Carina Curto from Penn State University. Delve into the study of threshold-linear networks as simplified models that exhibit a full range of nonlinear behaviors, including fixed point attractors, limit cycles, quasiperiodic attractors, and chaos. Examine how connectomes both enable and constrain neural computation, and investigate the bifurcation theory as a function of synaptic weights and neuromodulation. Gain insights into the mathematical underpinnings of these constraints through the lens of combinatorial geometry and hyperplane arrangements associated with the model. Recorded at IPAM's Mathematical Approaches for Connectome Analysis Workshop, this talk offers a deep dive into the architectural constraints on recurrent network dynamics, providing valuable knowledge for researchers and students in computational neuroscience and applied mathematics.

Syllabus

Carina Curto - Architectural constraints on recurrent network dynamics - IPAM at UCLA


Taught by

Institute for Pure & Applied Mathematics (IPAM)

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