We consider a stochastic neuronal model in which the time evolution of the membrane potential is described by a Wiener process perturbed by random jumps driven by a counting process. We consider the first-crossing-time problem through a constant boundary for such a process, in order to describe the firing activity of the model neuron. We build up a new simulation procedure for the construction of firing densities estimates.
Evaluation of neuronal firing densities via simulation of a jump-diffusion process / A., DI CRESCENZO; E., DI NARDO; Ricciardi, LUIGI MARIA. - STAMPA. - 3561:(2005), pp. 166-175. [10.1007/11499220_18]
Evaluation of neuronal firing densities via simulation of a jump-diffusion process
RICCIARDI, LUIGI MARIA
2005
Abstract
We consider a stochastic neuronal model in which the time evolution of the membrane potential is described by a Wiener process perturbed by random jumps driven by a counting process. We consider the first-crossing-time problem through a constant boundary for such a process, in order to describe the firing activity of the model neuron. We build up a new simulation procedure for the construction of firing densities estimates.File in questo prodotto:
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