Add to ORKGAbstract. We review and extend recent results on the instantaneous firing rate dynamics of simplified models of spiking neurons in response to noisy current inputs. It has been shown recently that the response of the instantaneous firing rate to small amplitude oscillations in the mean inputs depends in the large frequency limit f on the spike initiation dynamics. A particular simplified model, the exponential integrate-and-fire (EIF) model, has a response that decays as 1 / f in the large frequency limit and describes very well the response of conductance-based models with a Hodgkin-Huxley type fast sodium current. Here, we show that the response of the EIF instantaneous firing rate also decays as 1 / f in the case of an oscillation in the...
Integrate-and-fire models are mainstays of the study of single-neuron response properties and emerge...
<p><b>A.</b> Response to step in the common input current in the noise-dominated regime. <b>B.</b> R...
The response of a neuronal population to afferent drive can be expected to be sensitive to both the ...
We review and extend recent results on the instantaneous firing rate dynamics of simplified models o...
The mean input and variance of the total synaptic input to a neuron can vary independently, suggesti...
The mean input and variance of the total synaptic input to a neuron can vary independently, suggesti...
This study examines the ability of neurons to track temporally varying inputs, namely by investigati...
Computational models offer a unique tool for understanding the network-dynamical mechanisms which me...
One of the fundamental problems in neuroscience is characterizing the transfer function that convert...
Capturing the response behavior of spiking neuron models with rate-based models facilitates the inve...
Capturing the response behavior of spiking neuron models with rate-based models facilitates the inve...
Neurons are sensitive to correlations among synaptic inputs. However, analytical models that explici...
Rate models are often used to study the behavior of large networks of spiking neurons. Here we propo...
We demonstrate that single-variable integrate-and-fire models can quantitatively capture the dynamic...
Cortical neurons are often classified by current-frequency relationship. Such a static description i...
Integrate-and-fire models are mainstays of the study of single-neuron response properties and emerge...
<p><b>A.</b> Response to step in the common input current in the noise-dominated regime. <b>B.</b> R...
The response of a neuronal population to afferent drive can be expected to be sensitive to both the ...
We review and extend recent results on the instantaneous firing rate dynamics of simplified models o...
The mean input and variance of the total synaptic input to a neuron can vary independently, suggesti...
The mean input and variance of the total synaptic input to a neuron can vary independently, suggesti...
This study examines the ability of neurons to track temporally varying inputs, namely by investigati...
Computational models offer a unique tool for understanding the network-dynamical mechanisms which me...
One of the fundamental problems in neuroscience is characterizing the transfer function that convert...
Capturing the response behavior of spiking neuron models with rate-based models facilitates the inve...
Capturing the response behavior of spiking neuron models with rate-based models facilitates the inve...
Neurons are sensitive to correlations among synaptic inputs. However, analytical models that explici...
Rate models are often used to study the behavior of large networks of spiking neurons. Here we propo...
We demonstrate that single-variable integrate-and-fire models can quantitatively capture the dynamic...
Cortical neurons are often classified by current-frequency relationship. Such a static description i...
Integrate-and-fire models are mainstays of the study of single-neuron response properties and emerge...
<p><b>A.</b> Response to step in the common input current in the noise-dominated regime. <b>B.</b> R...
The response of a neuronal population to afferent drive can be expected to be sensitive to both the ...