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Bibliographic Details
Main Authors: Gui, Lin, Mao, Tiantian, Wang, Jingshu, Wang, Ruodu
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2508.05818
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Table of Contents:
  • Heavy-tailed combination tests, such as the Cauchy combination test and harmonic mean p-value method, are widely used for testing global null hypotheses by aggregating dependent p-values. However, their theoretical guarantees under general dependence structures remain limited. We develop a unified framework using multivariate regularly varying copulas to model the joint behavior of p-values near zero. Within this framework, we show that combination tests remain asymptotically valid when the transformation distribution has a tail index $γ\leq 1$, with $γ= 1$ maximizing power while preserving validity. The Bonferroni test emerges as a limiting case when $γ\to 0$ and becomes overly conservative under asymptotic dependence. Consequently, combination tests with $γ= 1$ achieve increasing asymptotic power gains over Bonferroni as p-values exhibit stronger lower-tail dependence and signals are not extremely sparse. Our results provide theoretical support for using truncated Cauchy or Pareto combination tests, offering a principled approach to enhance power while controlling false positives under complex dependence.