Using quantiles in ranking and selection procedures

Using quantiles in ranking and selection procedures

A useful performance measure on which to compare manufacturing systems is a quantile of the cycle time distribution. Unfortunately, aside from order statistic estimates, which can require significant data storage, the distribution of quantile estimates has not been shown to be normally distributed,...

Full description

Saved in:
Bibliographic Details
Published in:2007 Winter Simulation Conference pp. 1722 - 1728
Main Authors: Bekki, J.M., Fowler, J.W., Mackulak, G.T., Nelson, B.L.
Format: Conference Proceeding
Language:English
Published: IEEE 01-12-2007
Subjects:
Gaussian distribution
Industrial engineering
Manufacturing industries
Manufacturing systems
Memory
Particle measurements
Sampling methods
Semiconductor device modeling
Statistical distributions
Time measurement
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:A useful performance measure on which to compare manufacturing systems is a quantile of the cycle time distribution. Unfortunately, aside from order statistic estimates, which can require significant data storage, the distribution of quantile estimates has not been shown to be normally distributed, violating a common assumption amongst ranking-and-selection (R&S) procedures. To address this, we provide empirical evidence supporting an approach using the mean of a group of quantile estimates as the comparison measure. The approach is detailed and illustrated through experimentation on four M/M/l queues in which the 0.9 cycle-time quantile is the performance measure. Results in terms of simulation effort and accuracy are reported and compared to results obtained using the macro-replications approach for inducing normality as well as to results obtained by applying R&S procedures to quantile estimates directly. The suggested procedure is shown to provide significant savings in simulation effort while sacrificing very little in accuracy.
ISBN:9781424413058
1424413052
ISSN:0891-7736
1558-4305
DOI:10.1109/WSC.2007.4419795