Power-Enhanced Two-Sample Mean Tests for High-Dimensional Compositional Data with Application to Microbiome Data Analysis

Danning Li, Lingzhou Xue, Haoyi Yang, Xiufan Yu
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Abstract

Testing differences in mean vectors is a fundamental task in the analysis of high-dimensional compositional data. Existing methods may suffer from low power if the underlying signal pattern is in a situation that does not favor the deployed test. In this work, we develop two-sample power-enhanced mean tests for high-dimensional compositional data based on the combination of $p$-values, which integrates strengths from two popular types of tests: the maximum-type test and the quadratic-type test. We provide rigorous theoretical guarantees on the proposed tests, showing accurate Type-I error rate control and enhanced testing power. Our method boosts the testing power towards a broader alternative space, which yields robust performance across a wide range of signal pattern settings. Our theory also contributes to the literature on power enhancement and Gaussian approximation for high-dimensional hypothesis testing. We demonstrate the performance of our method on both simulated data and real-world microbiome data, showing that our proposed approach improves the testing power substantially compared to existing methods.
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应用于微生物组数据分析的高维组合数据的功率增强型双样本均值检验
测试平均向量的差异是分析高维合成数据的一项基本任务。如果底层信号模式处于不利于所部署的测试的情况,现有方法可能会受到低功率的影响。在这项工作中,我们开发了基于 $p$ 值组合的高维组合数据双样本功率增强均值检验,它整合了两种流行检验类型的优势:最大类型检验和二次类型检验。我们为所提出的检验提供了严格的理论保证,显示了精确的第一类错误率控制和更强的检验能力。我们的方法将测试能力提升到了一个广阔的替代空间,从而在各种信号模式设置中都能获得稳健的性能。我们在模拟数据和真实世界微生物组数据上展示了我们方法的性能,表明与现有方法相比,我们提出的方法大大提高了测试能力。
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