Stein-type estimation using ranked set sampling

S. E. Ahmed; H. A. Muttlak; J. Al-Mutawa; M. Saheh

doi:10.1080/00949655.2011.583248

Stein-type estimation using ranked set sampling

S. E. Ahmed, H. A. Muttlak, J. Al-Mutawa, M. Saheh

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

1 Scopus citations

Abstract

In this study, we consider the application of the James-Stein estimator for population means from a class of arbitrary populations based on ranked set sample (RSS). We consider a basis for optimally combining sample information from several data sources. We succinctly develop the asymptotic theory of simultaneous estimation of several means for differing replications based on the well-defined shrinkage principle. We showcase that a shrinkage-type estimator will have, under quadratic loss, a substantial risk reduction relative to the classical estimator based on simple random sample and RSS. Asymptotic distributional quadratic biases and risks of the shrinkage estimators are derived and compared with those of the classical estimator. A simulation study is used to support the asymptotic result. An over-riding theme of this study is that the shrinkage estimation method provides a powerful extension of its traditional counterpart for non-normal populations. Finally, we will use a real data set to illustrate the computation of the proposed estimators.

Original language	English
Pages (from-to)	1501-1516
Number of pages	16
Journal	Journal of Statistical Computation and Simulation
Volume	82
Issue number	10
DOIs	https://doi.org/10.1080/00949655.2011.583248
State	Published - Oct 2012

Bibliographical note

Funding Information:
This work was supported by the King Fahd University of Petroleum & Minerals, Dhahran, Saudi Arabia, under the internal project # IN/ 2008-413.

Keywords

James-Stein estimator
quadratic loss
ranked set sampling
restricted estimator
shrinkage estimator
simple random sampling

ASJC Scopus subject areas

Statistics and Probability
Modeling and Simulation
Statistics, Probability and Uncertainty
Applied Mathematics

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10.1080/00949655.2011.583248

Cite this

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title = "Stein-type estimation using ranked set sampling",

abstract = "In this study, we consider the application of the James-Stein estimator for population means from a class of arbitrary populations based on ranked set sample (RSS). We consider a basis for optimally combining sample information from several data sources. We succinctly develop the asymptotic theory of simultaneous estimation of several means for differing replications based on the well-defined shrinkage principle. We showcase that a shrinkage-type estimator will have, under quadratic loss, a substantial risk reduction relative to the classical estimator based on simple random sample and RSS. Asymptotic distributional quadratic biases and risks of the shrinkage estimators are derived and compared with those of the classical estimator. A simulation study is used to support the asymptotic result. An over-riding theme of this study is that the shrinkage estimation method provides a powerful extension of its traditional counterpart for non-normal populations. Finally, we will use a real data set to illustrate the computation of the proposed estimators.",

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author = "Ahmed, \{S. E.\} and Muttlak, \{H. A.\} and J. Al-Mutawa and M. Saheh",

note = "Funding Information: This work was supported by the King Fahd University of Petroleum \& Minerals, Dhahran, Saudi Arabia, under the internal project \# IN/ 2008-413.",

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AU - Ahmed, S. E.

AU - Muttlak, H. A.

AU - Al-Mutawa, J.

AU - Saheh, M.

N1 - Funding Information: This work was supported by the King Fahd University of Petroleum & Minerals, Dhahran, Saudi Arabia, under the internal project # IN/ 2008-413.

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N2 - In this study, we consider the application of the James-Stein estimator for population means from a class of arbitrary populations based on ranked set sample (RSS). We consider a basis for optimally combining sample information from several data sources. We succinctly develop the asymptotic theory of simultaneous estimation of several means for differing replications based on the well-defined shrinkage principle. We showcase that a shrinkage-type estimator will have, under quadratic loss, a substantial risk reduction relative to the classical estimator based on simple random sample and RSS. Asymptotic distributional quadratic biases and risks of the shrinkage estimators are derived and compared with those of the classical estimator. A simulation study is used to support the asymptotic result. An over-riding theme of this study is that the shrinkage estimation method provides a powerful extension of its traditional counterpart for non-normal populations. Finally, we will use a real data set to illustrate the computation of the proposed estimators.

AB - In this study, we consider the application of the James-Stein estimator for population means from a class of arbitrary populations based on ranked set sample (RSS). We consider a basis for optimally combining sample information from several data sources. We succinctly develop the asymptotic theory of simultaneous estimation of several means for differing replications based on the well-defined shrinkage principle. We showcase that a shrinkage-type estimator will have, under quadratic loss, a substantial risk reduction relative to the classical estimator based on simple random sample and RSS. Asymptotic distributional quadratic biases and risks of the shrinkage estimators are derived and compared with those of the classical estimator. A simulation study is used to support the asymptotic result. An over-riding theme of this study is that the shrinkage estimation method provides a powerful extension of its traditional counterpart for non-normal populations. Finally, we will use a real data set to illustrate the computation of the proposed estimators.

KW - James-Stein estimator

KW - quadratic loss

KW - ranked set sampling

KW - restricted estimator

KW - shrinkage estimator

KW - simple random sampling

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JO - Journal of Statistical Computation and Simulation

JF - Journal of Statistical Computation and Simulation

IS - 10

ER -

Stein-type estimation using ranked set sampling

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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Cite this