Random Partitioning and Distribution-based Thresholding for Iterative Variable Screening in High Dimensions
Abstract
In big data analysis, a simple task such as linear regression can become very challenging as the variable dimension grows. As a result, variable screening is inevitable in many scientific studies. In recent years, randomized algorithms have become a new trend and are playing an increasingly important role for large scale data analysis. In this article, we combine the ideas of variable screening and random partitioning to propose a new iterative variable screening method. For moderate sized of order , we propose a basic algorithm that adopts a distribution-based thresholding rule. For very large , we further propose a two-stage procedure. This two-stage procedure first performs a random partitioning to divide predictors into subsets of manageable size of order for variable screening, where can be an arbitrarily small positive number. Random partitioning is repeated a few times. Next, the final estimate of variable subset is obtained by integrating results obtained from multiple random partitions. Simulation studies show that our method works well and outperforms some renowned competitors. Real data applications are presented. Our algorithms are able to handle predictors in the size of millions.
Keywords
Cite
@article{arxiv.1801.00105,
title = {Random Partitioning and Distribution-based Thresholding for Iterative Variable Screening in High Dimensions},
author = {Yu-Hsiang Cheng and Tzee-Ming Huang and Su-Yun Huang},
journal= {arXiv preprint arXiv:1801.00105},
year = {2019}
}