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WSC
2008
2008
Skart: A skewness- and autoregression-adjusted batch-means procedure for simulation analysis
We discuss Skart, an automated batch-means procedure for constructing a skewness- and autoregression-adjusted confidence interval for the steady-state mean of a simulation output process. Skart is a sequential procedure designed to deliver a confidence interval that satisfies user-specified requirements concerning not only coverage probability but also the absolute or relative precision provided by the half-length. Skart exploits separate adjustments to the half-length of the classical batch-means confidence interval so as to account for the effects on the distribution of the underlying Student's t-statistic that arise from nonnormality and autocorrelation of the batch means. Skart also delivers a point estimator for the steady-state mean that is approximately free of initialization bias. In an experimental performance evaluation involving a wide range of test processes, Skart compared favorably with other simulation analysis methods--namely, its predecessors ASAP3, WASSP, and SB...
Real-time TrafficAutoregression-adjusted Confidence Interval | Confidence Interval | Modeling And Simulation | Steady-state Mean | WSC 2008 |
| Added | 02 Oct 2010 |
| Updated | 02 Oct 2010 |
| Type | Conference |
| Year | 2008 |
| Where | WSC |
| Authors | Ali Tafazzoli, James R. Wilson, Emily K. Lada, Natalie M. Steiger |
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