Abstract
A description of the sequence of interspike intervals and of the subsequent
firing times for single neurons is performed by means of an instantaneous return pro-
cess in the presence of refractoriness. Every interspike interval consists of an absolute
refractory period of fixed duration followed by a period of relative refractoriness whose
duration is described by the first-passage time of the modeling diffusion process through
a generally time-dependent threshold. In the cases of Wiener and Ornstein-Uhlenbeck
processes, the interspike probability density functions and some of its statistical fea-
tures are explicitly obtained for special monotonically non-increasing thresholds.
