Add to ORKGthis article, we briefly describe a biophysically-based compartmental model of an adapting cortical pyramidal cell. Then we use our compartmental model to derive a simpler coupled oscillator model that provides insight into the synchronizing properties of networks of cortical oscillators. We verify the predictions of the coupled oscillator model using simulations of networks of the biophysically-based model. In general, biophysical models of excitable membrane usually represent the dynamics of a cell in the general Hodgkin and Huxley (1952) current balance forma
Neural oscillations occur within a wide frequency range with different brain regions exhibiting reso...
Transcranial brain stimulation and evidence of ephaptic coupling have sparked strong interests in un...
In this thesis we study aspects of periodic activity in model mutually-coupled oscillators inspired ...
Oscillations in many regions of the cortex have common temporal characteristics with dominant freque...
<p>(A) An excitatory regular spiking pyramidal cell (E) is mutually coupled with a fast spiking inhi...
Computational studies as well as in vivo and in vitro results have shown that many cortical neurons ...
The development of quantitative models that describe how neural inputs control the electrophysiologi...
<div><p>Computational studies as well as <em>in vivo</em> and <em>in vitro</em> results have shown t...
<p>(A–F) Measures of network activity for simulations of large-scale (N = 200) excitatory networks o...
. Coupled oscillator models use a single phase variable to approximate the voltage oscillation of e...
<div><p>The ability of spiking neurons to synchronize their activity in a network depends on the res...
<p><b>A</b> Activity of two neurons and showing the LCM at the fundamental frequency of 11.9 Hz (8...
Population rate models provide powerful tools for investigating the principles that underlie the coo...
In the intact brain neurons are constantly exposed to intense synaptic activity. This heavy barrage ...
Transcranial brain stimulation and evidence of ephaptic coupling have sparked strong interests in un...
Neural oscillations occur within a wide frequency range with different brain regions exhibiting reso...
Transcranial brain stimulation and evidence of ephaptic coupling have sparked strong interests in un...
In this thesis we study aspects of periodic activity in model mutually-coupled oscillators inspired ...
Oscillations in many regions of the cortex have common temporal characteristics with dominant freque...
<p>(A) An excitatory regular spiking pyramidal cell (E) is mutually coupled with a fast spiking inhi...
Computational studies as well as in vivo and in vitro results have shown that many cortical neurons ...
The development of quantitative models that describe how neural inputs control the electrophysiologi...
<div><p>Computational studies as well as <em>in vivo</em> and <em>in vitro</em> results have shown t...
<p>(A–F) Measures of network activity for simulations of large-scale (N = 200) excitatory networks o...
. Coupled oscillator models use a single phase variable to approximate the voltage oscillation of e...
<div><p>The ability of spiking neurons to synchronize their activity in a network depends on the res...
<p><b>A</b> Activity of two neurons and showing the LCM at the fundamental frequency of 11.9 Hz (8...
Population rate models provide powerful tools for investigating the principles that underlie the coo...
In the intact brain neurons are constantly exposed to intense synaptic activity. This heavy barrage ...
Transcranial brain stimulation and evidence of ephaptic coupling have sparked strong interests in un...
Neural oscillations occur within a wide frequency range with different brain regions exhibiting reso...
Transcranial brain stimulation and evidence of ephaptic coupling have sparked strong interests in un...
In this thesis we study aspects of periodic activity in model mutually-coupled oscillators inspired ...