Distributed Estimation and Inference with Statistical Guarantees
Abstract
This paper studies hypothesis testing and parameter estimation in the context of the divide and conquer algorithm. In a unified likelihood based framework, we propose new test statistics and point estimators obtained by aggregating various statistics from subsamples of size , where is the sample size. In both low dimensional and high dimensional settings, we address the important question of how to choose as grows large, providing a theoretical upper bound on such that the information loss due to the divide and conquer algorithm is negligible. In other words, the resulting estimators have the same inferential efficiencies and estimation rates as a practically infeasible oracle with access to the full sample. Thorough numerical results are provided to back up the theory.
Cite
@article{arxiv.1509.05457,
title = {Distributed Estimation and Inference with Statistical Guarantees},
author = {Heather Battey and Jianqing Fan and Han Liu and Junwei Lu and Ziwei Zhu},
journal= {arXiv preprint arXiv:1509.05457},
year = {2015}
}