Title :
Dagger-Sampling Monte Carlo For System Unavailability Evaluation
Author :
Kumamoto, Hiromitsu ; Tanaka, Kazuo ; Inoue, Koichi ; Henley, Ernest J.
Author_Institution :
Dept. of Precision Mech.; Faculty of Engr.; Kyoto University; Kyoto 606 JAPAN.
fDate :
6/1/1980 12:00:00 AM
Abstract :
Reliability problems usually result in rare-event simulations, and hence direct Monte Carlo methods are extremely wasteful of computer time. This paper presents a new application of ``dagger-sampling´´, for calculating the system unavailability of a large complicated system represented by a coherent fault tree. Since a small number of uniform random numbers generate a number of trials, dagger-sampling appreciably reduces computation time, and hence a large number of trials become possible for the rare-event problems. Further, dagger-sampling decreases the variance of the Monte Carlo estimator because it generates negatively correlated samples.
Keywords :
Boolean algebra; Computational modeling; Discrete event simulation; Fault trees; Monte Carlo methods; Reliability theory; Sampling methods; State estimation; Statistical analysis; Statistics; Antithetic variates; Monte Carlo method; Rare-event simulations; System unavailability;
Journal_Title :
Reliability, IEEE Transactions on
DOI :
10.1109/TR.1980.5220749
