DOUBLE-SLICING ASSISTED SUFFICIENT DIMENSION REDUCTION FOR HIGH-DIMENSIONAL CENSORED DATA

Article

Ding, Shanshan; Qian, Wei; Wang, Lan

University of Delaware; University of Miami

ANNALS OF STATISTICS

0090-5364

10.1214/19-AOS1880

2020

2132-2154

This paper provides a unified framework and an efficient algorithm for analyzing high-dimensional survival data under weak modeling assumptions. In particular, it imposes neither parametric distributional assumption nor linear regression assumption. It only assumes that the survival time T depends on a high-dimensional covariate vector X through low-dimensional linear combinations of covariates Gamma(T) X. The censoring time is allowed to be conditionally independent of the survival time given the covariates. This general framework includes many popular parametric and semiparametric survival regression models as special cases. The proposed algorithm produces a number of practically useful outputs with theoretical guarantees, including a consistent estimate of the sufficient dimension reduction subspace of T vertical bar X, a uniformly consistent Kaplan-Meier-type estimator of the conditional distribution function of T and a consistent estimator of the conditional quantile survival time. Our asymptotic results significantly extend the classical theory of sufficient dimension reduction for censored data (particularly that of Li, Wang and Chen in Ann. Statist. 27 (1999) 1-23) and the celebrated nonparametric Kaplan-Meier estimator to the setting where the number of covariates p diverges exponentially fast with the sample size n. We demonstrate the promising performance of the proposed new estimators through simulations and a real data example.