Given $n$ independent observations with common density $f(x - \theta)$, and a rv $z$ independent of these with density $g(x - \theta) (f, g$ known except for $\theta$) a prediction region for $z$ is required. It is shown that the best translation invariant interval is optimal in two senses: (1) there is no other region with the same expected coverage (coverage is the probability of containing $z$) and uniformly smaller expected size (Lebesgue measure); (2) no other interval having the same confidence that the coverage exceeds $\beta$ (given) can have uniformly smaller expected length. The best invariant interval in each case is found, and the normal case is studied. The usual interval centered at $\bar{X}$ is not always optimal in the second sense if $\beta$ and/or confidence are small. A criterion involving expected coverage and the confidence of exceeding coverage $\beta$ is also examined. Again restrictions on these are needed for the usual normal interval to be optimal.
Publié le : 1974-07-14
Classification:
Tolerance intervals,
admissibility,
normal tolerance intervals,
prediction regions,
62F25,
62C15,
62C10
@article{1176342757,
author = {Blumenthal, Saul},
title = {Admissibility of Translation Invariant Tolerance Intervals in the Location Parameter Case},
journal = {Ann. Statist.},
volume = {2},
number = {1},
year = {1974},
pages = { 694-702},
language = {en},
url = {http://dml.mathdoc.fr/item/1176342757}
}
Blumenthal, Saul. Admissibility of Translation Invariant Tolerance Intervals in the Location Parameter Case. Ann. Statist., Tome 2 (1974) no. 1, pp. 694-702. http://gdmltest.u-ga.fr/item/1176342757/