Operational variants of the minimum mean squared error estimator in linear regression models with non-spherical disturbances

Alan T. K. Wan; Anoop Chaturvedi

doi:10.1023/A:1004169923370

Operational variants of the minimum mean squared error estimator in linear regression models with non-spherical disturbances

Alan T. K. Wan, Anoop Chaturvedi

Department of Decision Analytics and Operations

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

6 Citations (Scopus)

Abstract

There is a good deal of literature that investigates the properties of various operational variants of Theil's (1971, Principles of Econometrics, Wiley, New York) minimum mean squared error estimator. It is interesting that virtually all of the existing analysis to date is based on the premise that the model's disturbances are i.i.d., an assumption which is not satisfied in many practical situations. In this paper, we consider a model with non-spherical errors and derive the asymptotic distribution, bias and mean squared error of a general class of feasible minimum mean squared error estimators. A Monte-Carlo experiment is conducted to examine the performance of this class of estimators in finite samples.

Original language	English
Pages (from-to)	332-342
Journal	Annals of the Institute of Statistical Mathematics
Volume	52
Issue number	2
DOIs	https://doi.org/10.1023/A:1004169923370
Publication status	Published - Jun 2000

Research Keywords

Asymptotic expansion
Minimum mean squared error
Quadratic loss
Risk
Stein-rule

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AU - Chaturvedi, Anoop

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N2 - There is a good deal of literature that investigates the properties of various operational variants of Theil's (1971, Principles of Econometrics, Wiley, New York) minimum mean squared error estimator. It is interesting that virtually all of the existing analysis to date is based on the premise that the model's disturbances are i.i.d., an assumption which is not satisfied in many practical situations. In this paper, we consider a model with non-spherical errors and derive the asymptotic distribution, bias and mean squared error of a general class of feasible minimum mean squared error estimators. A Monte-Carlo experiment is conducted to examine the performance of this class of estimators in finite samples.

AB - There is a good deal of literature that investigates the properties of various operational variants of Theil's (1971, Principles of Econometrics, Wiley, New York) minimum mean squared error estimator. It is interesting that virtually all of the existing analysis to date is based on the premise that the model's disturbances are i.i.d., an assumption which is not satisfied in many practical situations. In this paper, we consider a model with non-spherical errors and derive the asymptotic distribution, bias and mean squared error of a general class of feasible minimum mean squared error estimators. A Monte-Carlo experiment is conducted to examine the performance of this class of estimators in finite samples.

KW - Asymptotic expansion

KW - Minimum mean squared error

KW - Quadratic loss

KW - Risk

KW - Stein-rule

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DO - 10.1023/A:1004169923370

M3 - RGC 21 - Publication in refereed journal

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EP - 342

JO - Annals of the Institute of Statistical Mathematics

JF - Annals of the Institute of Statistical Mathematics

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ER -

Operational variants of the minimum mean squared error estimator in linear regression models with non-spherical disturbances

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Research Keywords

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