Area variance estimators for simulation using folded standardized time series

Claudia Antonini; Christos Alexopoulos; David Goldsman; James Wilson

doi:10.1080/07408170802331268

Area variance estimators for simulation using folded standardized time series

Claudia Antonini
, Christos Alexopoulos
, David Goldsman
, James Wilson

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

We estimate the variance parameter of a stationary simulation-generated process using "folded" versions of standardized time series area estimators. Asymptotically as the sample size increases, different folding levels yield unbiased estimators that are independent scaled chi-squared variates, each with one degree of freedom. This result is exploited to formulate improved variance estimators based on the combination of multiple levels as well as the use of batching. The improved estimators preserve the asymptotic bias properties of their predecessors, but have substantially lower asymptotic variances. The performance of the new variance estimators is demonstrated in a first-order autoregressive process with autoregressive parameter 0.9 and in the queue-waiting-time process for an M/M/1 queue with server utilization 0.8.

Original language	English
Pages (from-to)	134-144
Number of pages	11
Journal	IIE Transactions (Institute of Industrial Engineers)
Volume	41
Issue number	2
DOIs	https://doi.org/10.1080/07408170802331268
State	Published - 2009
Externally published	Yes

Keywords

Batching
Method of standardized time series
Simulation output analysis methods
Steady-state simulation
Variance estimation

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10.1080/07408170802331268

Cite this

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title = "Area variance estimators for simulation using folded standardized time series",

abstract = "We estimate the variance parameter of a stationary simulation-generated process using {"}folded{"} versions of standardized time series area estimators. Asymptotically as the sample size increases, different folding levels yield unbiased estimators that are independent scaled chi-squared variates, each with one degree of freedom. This result is exploited to formulate improved variance estimators based on the combination of multiple levels as well as the use of batching. The improved estimators preserve the asymptotic bias properties of their predecessors, but have substantially lower asymptotic variances. The performance of the new variance estimators is demonstrated in a first-order autoregressive process with autoregressive parameter 0.9 and in the queue-waiting-time process for an M/M/1 queue with server utilization 0.8.",

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T1 - Area variance estimators for simulation using folded standardized time series

AU - Antonini, Claudia

AU - Alexopoulos, Christos

AU - Goldsman, David

AU - Wilson, James

PY - 2009

Y1 - 2009

N2 - We estimate the variance parameter of a stationary simulation-generated process using "folded" versions of standardized time series area estimators. Asymptotically as the sample size increases, different folding levels yield unbiased estimators that are independent scaled chi-squared variates, each with one degree of freedom. This result is exploited to formulate improved variance estimators based on the combination of multiple levels as well as the use of batching. The improved estimators preserve the asymptotic bias properties of their predecessors, but have substantially lower asymptotic variances. The performance of the new variance estimators is demonstrated in a first-order autoregressive process with autoregressive parameter 0.9 and in the queue-waiting-time process for an M/M/1 queue with server utilization 0.8.

AB - We estimate the variance parameter of a stationary simulation-generated process using "folded" versions of standardized time series area estimators. Asymptotically as the sample size increases, different folding levels yield unbiased estimators that are independent scaled chi-squared variates, each with one degree of freedom. This result is exploited to formulate improved variance estimators based on the combination of multiple levels as well as the use of batching. The improved estimators preserve the asymptotic bias properties of their predecessors, but have substantially lower asymptotic variances. The performance of the new variance estimators is demonstrated in a first-order autoregressive process with autoregressive parameter 0.9 and in the queue-waiting-time process for an M/M/1 queue with server utilization 0.8.

KW - Batching

KW - Method of standardized time series

KW - Simulation output analysis methods

KW - Steady-state simulation

KW - Variance estimation

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DO - 10.1080/07408170802331268

M3 - Article

AN - SCOPUS:56749169589

SN - 0740-817X

VL - 41

SP - 134

EP - 144

JO - IIE Transactions (Institute of Industrial Engineers)

JF - IIE Transactions (Institute of Industrial Engineers)

IS - 2

ER -

Area variance estimators for simulation using folded standardized time series

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Keywords

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