Title :
Dynamics and convergence rate of ordinal comparison of stochastic discrete-event systems
Author_Institution :
INRIA, Metz, France
fDate :
4/1/1997 12:00:00 AM
Abstract :
This paper addresses ordinal comparison in the simulation of discrete-event systems. It examines dynamic behaviors of ordinal comparison in a fairly general framework. It proves that for regenerative systems, the probability of obtaining a desired solution using ordinal comparison approaches converges at exponential rate, while the variances of the performance measures converge at best at rate O(1/t 2), where t is the simulation time. Heuristic arguments are provided to explain that exponential convergence holds for general systems
Keywords :
computational complexity; convergence; discrete event systems; heuristic programming; stochastic systems; dynamic behaviors; exponential convergence; heuristic arguments; ordinal comparison; probability; regenerative systems; simulation; stochastic discrete-event systems; Computational modeling; Convergence; Discrete event systems; Filters; Linearity; Nonlinear systems; Stability; Stochastic systems; Time measurement; Vehicle dynamics;
Journal_Title :
Automatic Control, IEEE Transactions on
