Copula-Based Deep Survival Models for Dependent Censoring
Abstract
A survival dataset describes a set of instances (e.g. patients) and provides, for each, either the time until an event (e.g. death), or the censoring time (e.g. when lost to follow-up - which is a lower bound on the time until the event). We consider the challenge of survival prediction: learning, from such data, a predictive model that can produce an individual survival distribution for a novel instance. Many contemporary methods of survival prediction implicitly assume that the event and censoring distributions are independent conditional on the instance's covariates - a strong assumption that is difficult to verify (as we observe only one outcome for each instance) and which can induce significant bias when it does not hold. This paper presents a parametric model of survival that extends modern non-linear survival analysis by relaxing the assumption of conditional independence. On synthetic and semi-synthetic data, our approach significantly improves estimates of survival distributions compared to the standard that assumes conditional independence in the data.
Cite
@article{arxiv.2306.11912,
title = {Copula-Based Deep Survival Models for Dependent Censoring},
author = {Ali Hossein Gharari Foomani and Michael Cooper and Russell Greiner and Rahul G. Krishnan},
journal= {arXiv preprint arXiv:2306.11912},
year = {2023}
}
Comments
23 pages, 7 figures