Gaining power in multiple testing of interval hypotheses via conditionalization

12/30/2017
by   Jules L. Ellis, et al.
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In this paper we introduce a novel procedure for improving multiple testing procedures (MTPs) under scenarios when the null hypothesis p-values tend to be stochastically larger than standard uniform (referred to as 'inflated'). An important class of problems for which this occurs are tests of interval hypotheses. The new procedure starts with a set of p-values and discards those with values above a certain pre-selected threshold while the rest are corrected (scaled-up) by the value of the threshold. Subsequently, a chosen family-wise error rate (FWER) or false discovery rate (FDR) MTP is applied to the set of corrected p-values only. We prove the general validity of this procedure under independence of p-values, and for the special case of the Bonferroni method we formulate several sufficient conditions for the control of the FWER. It is demonstrated that this 'filtering' of p-values can yield considerable gains of power under scenarios with inflated null hypotheses p-values.

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