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Distributional Shift-Aware Off-Policy Interval Estimation: A Unified Error Quantification Framework

Machine Learning 2023-10-03 v2 Machine Learning

Abstract

We study high-confidence off-policy evaluation in the context of infinite-horizon Markov decision processes, where the objective is to establish a confidence interval (CI) for the target policy value using only offline data pre-collected from unknown behavior policies. This task faces two primary challenges: providing a comprehensive and rigorous error quantification in CI estimation, and addressing the distributional shift that results from discrepancies between the distribution induced by the target policy and the offline data-generating process. Motivated by an innovative unified error analysis, we jointly quantify the two sources of estimation errors: the misspecification error on modeling marginalized importance weights and the statistical uncertainty due to sampling, within a single interval. This unified framework reveals a previously hidden tradeoff between the errors, which undermines the tightness of the CI. Relying on a carefully designed discriminator function, the proposed estimator achieves a dual purpose: breaking the curse of the tradeoff to attain the tightest possible CI, and adapting the CI to ensure robustness against distributional shifts. Our method is applicable to time-dependent data without assuming any weak dependence conditions via leveraging a local supermartingale/martingale structure. Theoretically, we show that our algorithm is sample-efficient, error-robust, and provably convergent even in non-linear function approximation settings. The numerical performance of the proposed method is examined in synthetic datasets and an OhioT1DM mobile health study.

Keywords

Cite

@article{arxiv.2309.13278,
  title  = {Distributional Shift-Aware Off-Policy Interval Estimation: A Unified Error Quantification Framework},
  author = {Wenzhuo Zhou and Yuhan Li and Ruoqing Zhu and Annie Qu},
  journal= {arXiv preprint arXiv:2309.13278},
  year   = {2023}
}
R2 v1 2026-06-28T12:30:13.463Z