Simulation-based hypothesis testing of high dimensional means under covariance heterogeneity
Simulation-based hypothesis testing of high dimensional means under covariance heterogeneity
In this article, we study the problem of testing the mean vectors of high dimensional data in both one‐sample and two‐sample cases. The proposed testing procedures employ maximum‐type statistics and the parametric bootstrap techniques to compute the critical values. Different from the existing tests that heavily rely on the structural conditions on the unknown covariance matrices, the proposed tests allow general covariance structures of the data and therefore enjoy wide scope of applicability in practice. To enhance powers of the tests against sparse alternatives, we further propose two‐step procedures with a preliminary feature screening step. Theoretical properties of the proposed tests are investigated. Through extensive numerical experiments on synthetic data sets and an human acute lymphoblastic leukemia gene expression data set, we illustrate the performance of the new tests and how they may provide assistance on detecting disease‐associated gene‐sets. The proposed methods have been implemented in an R‐package HDtest and are available on CRAN.
1300-1310
Chang, Jinyuan
70e63ef5-cc89-4acf-8b20-1a3085c493c6
Zheng, Chao
f3e2a919-4c02-4f5a-8de6-4c4de8ab6b60
Zhou, Wen-Xin
e1dc14bc-a81d-4aed-8250-fd4d072c1a46
Zhou, Wen
2430de12-12a8-4b74-b5f9-6e4c547f0837
December 2017
Chang, Jinyuan
70e63ef5-cc89-4acf-8b20-1a3085c493c6
Zheng, Chao
f3e2a919-4c02-4f5a-8de6-4c4de8ab6b60
Zhou, Wen-Xin
e1dc14bc-a81d-4aed-8250-fd4d072c1a46
Zhou, Wen
2430de12-12a8-4b74-b5f9-6e4c547f0837
Chang, Jinyuan, Zheng, Chao, Zhou, Wen-Xin and Zhou, Wen
(2017)
Simulation-based hypothesis testing of high dimensional means under covariance heterogeneity.
Biometrics, 73 (4), .
(doi:10.1111/biom.12695).
Abstract
In this article, we study the problem of testing the mean vectors of high dimensional data in both one‐sample and two‐sample cases. The proposed testing procedures employ maximum‐type statistics and the parametric bootstrap techniques to compute the critical values. Different from the existing tests that heavily rely on the structural conditions on the unknown covariance matrices, the proposed tests allow general covariance structures of the data and therefore enjoy wide scope of applicability in practice. To enhance powers of the tests against sparse alternatives, we further propose two‐step procedures with a preliminary feature screening step. Theoretical properties of the proposed tests are investigated. Through extensive numerical experiments on synthetic data sets and an human acute lymphoblastic leukemia gene expression data set, we illustrate the performance of the new tests and how they may provide assistance on detecting disease‐associated gene‐sets. The proposed methods have been implemented in an R‐package HDtest and are available on CRAN.
Text
Biometrics_2017
- Accepted Manuscript
More information
Accepted/In Press date: 24 February 2017
e-pub ahead of print date: 27 March 2017
Published date: December 2017
Identifiers
Local EPrints ID: 441566
URI: http://eprints.soton.ac.uk/id/eprint/441566
ISSN: 1541-0420
PURE UUID: 22b2202a-1c77-46f7-8bc8-b24b9b2fe545
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Date deposited: 18 Jun 2020 16:30
Last modified: 17 Mar 2024 04:02
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Author:
Jinyuan Chang
Author:
Wen-Xin Zhou
Author:
Wen Zhou
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