Add to ORKGAbstract. An analytical model is proposed that can predict the shape of the poststimulus time histogram (PSTH) response to a current pulse of a neuron subjected to uncorrelated background input. The model is based on an explicit description of noise in the form of an escape rate and corresponding hazard function. Two forms of the model are presented. The full model is nonlinear and can be integrated numerically, while the linearized version can be solved analytically. In the linearized version, the PSTH response to a current input is proportional to a filtered version of the input pulse. The bandwidth of the filter is determined by the amount of noise. In the limit of high noise, the response is similar to the time course of the potential i...
<div><p>The response of a neuron to a time-dependent stimulus, as measured in a Peri-Stimulus-Time-H...
Cortical neurons are often classified by current-frequency relationship. Such a static description i...
<p>A Integrated response of the firing rate (15)of the integrate-and-fire model as a function of syn...
An analytical model is proposed that can predict the shape of the poststimulus time histogram (PSTH)...
A good approximation to the integrate-and-fire model with diffusive noise can be obtained using a no...
A generic property of the communication between neurons is the exchange of pulses at discrete time p...
Abstract. Dierent variants of stochastic leaky integrate-and-re model for the membrane depolarisatio...
<p>A. Autonomous firing of a STN neuron recorded in the absence of injected noise (upper panel) and ...
Abstract. The firing time of a cable model neuron in response to white noise current injection is in...
This study examines the ability of neurons to track temporally varying inputs, namely by investigati...
Abstract. We review and extend recent results on the instantaneous firing rate dynamics of simplifie...
We study the response time of a neuron in the transient regime of FitzHugh-Nagumo model, in the pres...
We review and extend recent results on the instantaneous firing rate dynamics of simplified models o...
Channel noise is the dominant intrinsic noise source of neurons causing variability in the timing of...
Stein's model for a neuron receiving randomly arriving post-synaptic potentials is studied from...
<div><p>The response of a neuron to a time-dependent stimulus, as measured in a Peri-Stimulus-Time-H...
Cortical neurons are often classified by current-frequency relationship. Such a static description i...
<p>A Integrated response of the firing rate (15)of the integrate-and-fire model as a function of syn...
An analytical model is proposed that can predict the shape of the poststimulus time histogram (PSTH)...
A good approximation to the integrate-and-fire model with diffusive noise can be obtained using a no...
A generic property of the communication between neurons is the exchange of pulses at discrete time p...
Abstract. Dierent variants of stochastic leaky integrate-and-re model for the membrane depolarisatio...
<p>A. Autonomous firing of a STN neuron recorded in the absence of injected noise (upper panel) and ...
Abstract. The firing time of a cable model neuron in response to white noise current injection is in...
This study examines the ability of neurons to track temporally varying inputs, namely by investigati...
Abstract. We review and extend recent results on the instantaneous firing rate dynamics of simplifie...
We study the response time of a neuron in the transient regime of FitzHugh-Nagumo model, in the pres...
We review and extend recent results on the instantaneous firing rate dynamics of simplified models o...
Channel noise is the dominant intrinsic noise source of neurons causing variability in the timing of...
Stein's model for a neuron receiving randomly arriving post-synaptic potentials is studied from...
<div><p>The response of a neuron to a time-dependent stimulus, as measured in a Peri-Stimulus-Time-H...
Cortical neurons are often classified by current-frequency relationship. Such a static description i...
<p>A Integrated response of the firing rate (15)of the integrate-and-fire model as a function of syn...