Explore a comprehensive seminar on developing mathematical models of the brain, presented by Distinguished Visiting Professor Lai-Sang Young from New York University. Delve into brain structure, local populations, and excitatory neurons through the lens of dynamical systems. Examine synchronous spiking, wandering frequencies, and two-neuron models, while considering memory and realistic computational modeling. Investigate local randomization, retinotopic mapping, and orientation selectivity in the context of brain function. Gain insights into orientation domains, model outputs, and microscopic rules governing neural behavior. Enhance your understanding of the intricate relationship between mathematics and neuroscience in this in-depth, hour-long presentation from the Institute for Advanced Study.
Overview
Syllabus
Intro
Brain structure
local populations
excitatory neurons
dynamical system
synchronous spiking
wandering frequencies
two neuron model
memory
realistic computational modeling
local randomization
retinotopic map
orientation selectivity
orientation domain
model output
microscopic rules
Taught by
Institute for Advanced Study
