Spiking correlations represented by a jump-process-based framework.

Spiking correlations represented by a jump-process-based framework.

<p>Excitatory (red) and inhibitory (blue) spikes are drawn from a jump-process with <i>p</i><sub><i>kl</i></sub> > 0, and a total conductance <i>G</i><sub><i>e</i>/<i>i</i></sub> given by their weighted sums...

Full description

Saved in:
Bibliographic Details
Main Author: Logan A. Becker (11928953) (author)
Other Authors: Francois Baccelli (22538207) (author), Thibaud Taillefumier (737635) (author)
Published: 2025
Subjects:
Biophysics
Biochemistry
Genetics
Neuroscience
Physiology
Environmental Sciences not elsewhere classified
Biological Sciences not elsewhere classified
xlink "> even
surprisingly large degree
question involves conducting
input drives modeled
generalized moment analysis
correlated jump processes
analysis using fixed
subthreshold moment analysis
membrane voltage fluctuations
measured neural activity
fluctuations requires weak
neuronal populations driven
subthreshold level
neuronal responses
voltage skewness
striking level
stationary regime
spiking activity
queuing theory
prior work
primary driver
point techniques
observed magnitude
level phenomenon
investigate whether
consistently explain
based neurons
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:<p>Excitatory (red) and inhibitory (blue) spikes are drawn from a jump-process with <i>p</i><sub><i>kl</i></sub> > 0, and a total conductance <i>G</i><sub><i>e</i>/<i>i</i></sub> given by their weighted sums. Inputs for the two example neurons are correlated (or shared) within and across both the excitatory and inhibitory populations, and between both neurons, as expressed through their jump-count distributions.</p>

Similar Items