We consider estimation of loss for generalized Bayes or pseudo-Bayes estimators of a multivariate normal mean vector, θ. In 3 and higher dimensions, the MLEX is UMVUE and minimax but is inadmissible. It is dominated by the James-Stein estimator and by many others. Johnstone (1988, On inadmissibility of some unbiased estimates of loss,Statistical Decision Theory and Related Topics, IV (eds. S. S. Gupta and J. O. Berger), Vol. 1, 361–379, Springer, New York) considered the estimation of loss for the usual estimatorX and the James-Stein estimator. He found improvements over the Stein unbiased estimator of risk. In this paper, for a generalized Bayes point estimator of θ, we compare generalized Bayes estimators to unbiased estimators of loss. We find, somewhat surprisingly, that the unbiased estimator often dominates the corresponding generalized Bayes estimator of loss for priors which give minimax estimators in the original point estimation problem. In particular, we give a class of priors for which the generalized Bayes estimator of θ is admissible and minimax but for which the unbiased estimator of loss dominates the generalized Bayes estimator of loss. We also give a general inadmissibility result for a generalized Bayes estimator of loss.
[1]
C. Stein.
Estimation of the Mean of a Multivariate Normal Distribution
,
1981
.
[2]
M. Bock.
Shrinkage Estimators: Pseudo-Bayes Rules for Normal Mean Vectors
,
1988
.
[3]
Yuzo Maruyama,et al.
A Unified and Broadened Class of Admissible Minimax Estimators of a Multivariate Normal Mean
,
1998
.
[4]
Estimation of Normal Means: Frequentist Estimation of Loss
,
1989
.
[5]
On Inadmissibility of Some Unbiased Estimates of Loss
,
1988
.
[6]
M. Wells,et al.
Estimation of a Loss Function for Spherically Symmetric Distributions in the General Linear Model
,
1995
.
[7]
A. Rukhin.
Estimated Loss and Admissible Loss Estimators
,
1988
.
[8]
M. Wells,et al.
On the construction of Bayes minimax estimators
,
1998
.