Title :
An improved numerical algorithm for calculating steady-state solutions of deterministic and stochastic Petri net models
Author :
Lindemann, Christoph
Author_Institution :
Inst. fur Tech. Inf., Tech. Univ., Berlin, Germany
Abstract :
Introduces an algorithm for calculating steady-state solutions of DSPN models. The described method employs the randomization technique enhanced by a stable calculation of Poisson probabilities. A complete re-design and re-implementation of the appropriate components implemented in the version 1.4 of the software package GreatSPN has lead to significant savings in both computation time and memory space. These benefits are illustrated by DSPN models taken from the literature. The author considers DSPN models for an Er/D/1/K queueing system and a fault-tolerant clocking system. These examples show that the model solutions are calculated with significantly less computational effort and a better error control by the algorithm described than by the method implemented in the version 1.4 of the software package GreatSPN
Keywords :
Petri nets; fault tolerant computing; queueing theory; DSPN models; Er/D/1/K queueing system; deterministic and stochastic Petri net models; error control; fault-tolerant clocking system; steady-state solutions; Clocks; Delay; Fault tolerant systems; Petri nets; Probability; Robots; Software algorithms; Software packages; Steady-state; Stochastic processes;
Conference_Titel :
Petri Nets and Performance Models, 1991. PNPM91., Proceedings of the Fourth International Workshop on
Conference_Location :
Melbourne, Vic.
Print_ISBN :
0-8186-2285-7
DOI :
10.1109/PNPM.1991.238803
