Sequential Estimation of the Largest Normal Mean when the Variance is Known
Blumenthal, Saul
Ann. Statist., Tome 4 (1976) no. 1, p. 1077-1087 / Harvested from Project Euclid
Given a procedure $\hat{\theta}^\ast$ for estimating the largest mean $\theta^\ast$ of $k$ normal populations with common known variance, it is desired to choose the common sample size $n$ so that the mean squared error (M.S.E.) of $\hat{\theta}^\ast$ does not exceed a given bound, $r$, regardless of the configuration of values of the $k$ means. Let $\Delta_1 \geqq \cdots \geqq \Delta_k = 0$ be the ordered values of $(\theta^\ast - \theta_i)$, where $\theta_1, \cdots, \theta_k$ are the unknown means. The M.S.E. depends on the $\Delta$'s and the conservative approach chooses a sample size $n^\ast$ to hold M.S.E. $\leqq r$ for all $\Delta$'s. Sequential and multisample procedures are considered which use sample information about the $\Delta$'s to reduce sample sizes. Asymptotic properties of the sample size and M.S.E. of the resulting estimates are developed. Improvements over using $n^\ast$ are possible, but with limitations. The sample size behavior of any $\hat{\theta}^\ast$ depends on the limiting variance of the estimator as all of $\Delta_1, \cdots, \Delta_{k-1}$ become infinite.
Publié le : 1976-11-14
Classification:  Sequential estimation,  estimation,  largest mean,  ordered parameters,  ranking and selection,  62F07,  62L12
@article{1176343643,
     author = {Blumenthal, Saul},
     title = {Sequential Estimation of the Largest Normal Mean when the Variance is Known},
     journal = {Ann. Statist.},
     volume = {4},
     number = {1},
     year = {1976},
     pages = { 1077-1087},
     language = {en},
     url = {http://dml.mathdoc.fr/item/1176343643}
}
Blumenthal, Saul. Sequential Estimation of the Largest Normal Mean when the Variance is Known. Ann. Statist., Tome 4 (1976) no. 1, pp.  1077-1087. http://gdmltest.u-ga.fr/item/1176343643/