Predicting random effects with an expanded finite population mixed model


Autoria(s): III, Edward J. Stanek; SINGER, Julio M.
Contribuinte(s)

UNIVERSIDADE DE SÃO PAULO

Data(s)

20/10/2012

20/10/2012

2008

Resumo

Prediction of random effects is an important problem with expanding applications. In the simplest context, the problem corresponds to prediction of the latent value (the mean) of a realized cluster selected via two-stage sampling. Recently, Stanek and Singer [Predicting random effects from finite population clustered samples with response error. J. Amer. Statist. Assoc. 99, 119-130] developed best linear unbiased predictors (BLUP) under a finite population mixed model that outperform BLUPs from mixed models and superpopulation models. Their setup, however, does not allow for unequally sized clusters. To overcome this drawback, we consider an expanded finite population mixed model based on a larger set of random variables that span a higher dimensional space than those typically applied to such problems. We show that BLUPs for linear combinations of the realized cluster means derived under such a model have considerably smaller mean squared error (MSE) than those obtained from mixed models, superpopulation models, and finite population mixed models. We motivate our general approach by an example developed for two-stage cluster sampling and show that it faithfully captures the stochastic aspects of sampling in the problem. We also consider simulation studies to illustrate the increased accuracy of the BLUP obtained under the expanded finite population mixed model. (C) 2007 Elsevier B.V. All rights reserved.

Identificador

JOURNAL OF STATISTICAL PLANNING AND INFERENCE, v.138, n.10, p.2991-3004, 2008

0378-3758

http://producao.usp.br/handle/BDPI/30523

10.1016/j.jspi.2007.11.012

http://dx.doi.org/10.1016/j.jspi.2007.11.012

Idioma(s)

eng

Publicador

ELSEVIER SCIENCE BV

Relação

Journal of Statistical Planning and Inference

Direitos

restrictedAccess

Copyright ELSEVIER SCIENCE BV

Palavras-Chave #superpopulation #best linear unbiased predictor #random permutation #optimal estimation #design-based inference #mixed models #UNIFIED APPROACH #Statistics & Probability
Tipo

article

original article

publishedVersion