Block Designs that Provide Optimal Power in the Cochran-Mantel-Haenszel Test

Abstract

We consider the asymptotic power performance under local alternatives of the Cochran-Mantel-Haenszel test. Our setting is non-traditional: we investigate randomized experiments that assign subjects via Fisher's blocking design. We show that blocking designs that satisfy a certain balance condition are asymptotically optimal. When the potential outcomes can be ordered, the balance condition is met for all blocking designs with number of blocks going to infinity. More generally, we prove that the pairwise matching design of Greevy et al. (2004) satisfies the balance condition under mild assumptions. In smaller sample sizes, we show a second order effect becomes operational thereby making blocking designs with a smaller number optimal. In practical settings with many covariates, we recommend pairwise matching for its ability to approximate the balance condition.