Motivated by a typical and well-known problem of neurobiological modeling, a parallel algorithm devised to simulate sample paths of stationary normal processes with rational spectral densities is implemented to evaluate first passage time probability densities for time-varying boundaries. After a self-contained outline of the original problem and of the involved computational framework, the results of numerous simulations are discussed and conclusions are drawn on the effect of a periodic boundary and a Butterworth-type covariance on determining quantitative and qualitative features of first passage time probability densities.
Simulation of Gaussian Processes and First Passage Time Densities Evaluation / E., DI NARDO; A. G., Nobile; Pirozzi, Enrica; Ricciardi, LUIGI MARIA; Rinaldi, Silvana. - STAMPA. - 1798:(2000), pp. 319-333. [10.1007/10720123_29]
Simulation of Gaussian Processes and First Passage Time Densities Evaluation
PIROZZI, ENRICA;RICCIARDI, LUIGI MARIA;RINALDI, SILVANA
2000
Abstract
Motivated by a typical and well-known problem of neurobiological modeling, a parallel algorithm devised to simulate sample paths of stationary normal processes with rational spectral densities is implemented to evaluate first passage time probability densities for time-varying boundaries. After a self-contained outline of the original problem and of the involved computational framework, the results of numerous simulations are discussed and conclusions are drawn on the effect of a periodic boundary and a Butterworth-type covariance on determining quantitative and qualitative features of first passage time probability densities.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
