| Literature DB >> 29398733 |
Antoine Chambaz1,2, Wenjing Zheng2, Mark J van der Laan2.
Abstract
This article studies the targeted sequential inference of an optimal treatment rule (TR) and its mean reward in the non-exceptional case, i.e., assuming that there is no stratum of the baseline covariates where treatment is neither beneficial nor harmful, and under a companion margin assumption. Our pivotal estimator, whose definition hinges on the targeted minimum loss estimation (TMLE) principle, actually infers the mean reward under the current estimate of the optimal TR. This data-adaptive statistical parameter is worthy of interest on its own. Our main result is a central limit theorem which enables the construction of confidence intervals on both mean rewards under the current estimate of the optimal TR and under the optimal TR itself. The asymptotic variance of the estimator takes the form of the variance of an efficient influence curve at a limiting distribution, allowing to discuss the efficiency of inference. As a by product, we also derive confidence intervals on two cumulated pseudo-regrets, a key notion in the study of bandits problems. A simulation study illustrates the procedure. One of the corner-stones of the theoretical study is a new maximal inequality for martingales with respect to the uniform entropy integral.Entities:
Keywords: 62G20; Primary 62G05; bandits; optimal treatment rule; precision medicine; pseudo-regret; secondary 62K99; targeted minimum loss estimation (TMLE)
Year: 2017 PMID: 29398733 PMCID: PMC5794253 DOI: 10.1214/16-AOS1534
Source DB: PubMed Journal: Ann Stat ISSN: 0090-5364 Impact factor: 4.028