Journal of Applied Mathematics and Decision Sciences
Volume 6 (2002), Issue 1, Pages 23-42
doi:10.1155/S1173912602000020
An integrated selection formulation for the best normal mean: the
unequal and unknown variance case
1Department of Mathematics, Syracuse University, Syracuse 13244-1130, NY, USA
2Department of Mathematics, Indiana Univ. of Pennsylvania, Indian 15705- 1072, PA, USA
Copyright © 2002 Pinyuen Chen and Jun-Lue Zhang. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Abstract
This paper considers an integrated formulation in selecting the best normal
mean in the case of unequal and unknown variances. The formulation separates the
parameter space into two disjoint parts, the preference zone (PZ) and the indifference zone (IZ). In the PZ we insist on selecting the best for a correct selection (CS1) but in the IZ we define any selected subset to be correct (CS2) if it contains the best
population. We find the least favorable configuration (LFC) and the worst configuration (WC) respectively in PZ and IZ. We derive formulas for P(CS1|LFC), P(CS2|WC) and the bounds for the expected sample size E(N). We also give tables for the procedure parameters to implement the proposed procedure. An example is given to illustrate how to apply the procedure and how to use the table.