A mathematical description of the refractoriness period in neuronal diffusion modeling is given and its moments are explicitly obtained in a form that is suitable for quantitative evaluations. Then, for the Wiener, Ornstein-Uhlenbeck and Feller neuronal models, an analysis of the features exhibited by the mean and variance of the first passage time and of refractoriness period is performed.
Towards dead time inclusion in neuronal modeling / Buonocore, Aniello; G., Esposito; V., Giorno; C., Valerio. - In: SCIENTIAE MATHEMATICAE JAPONICAE. - ISSN 1346-0862. - STAMPA. - 58:2(2003), pp. 323-334.
Towards dead time inclusion in neuronal modeling
BUONOCORE, ANIELLO;
2003
Abstract
A mathematical description of the refractoriness period in neuronal diffusion modeling is given and its moments are explicitly obtained in a form that is suitable for quantitative evaluations. Then, for the Wiener, Ornstein-Uhlenbeck and Feller neuronal models, an analysis of the features exhibited by the mean and variance of the first passage time and of refractoriness period is performed.File in questo prodotto:
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