A proposed partial history importance weighting estimator consistently estimates stationary mean rewards of a target policy in POMDPs, with a minimax rate of convergence.
Establishes that off-policy evaluation in POMDPs is strictly harder than in fully observed MDPs but strictly easier than model-free off-policy evaluation.
We consider off-policy evaluation of dynamic treatment rules under sequential ignorability, given an assumption that the underlying system can be modeled as a partially observed Markov decision process (POMDP). We propose an estimator, partial history importance weighting, and show that it can consistently estimate the stationary mean rewards of a target policy, given long enough draws from the behavior policy. We provide an upper bound on its error that decays polynomially in the number of observations (i.e., the number of trajectories times their length) with an exponent that depends on the overlap of the target and behavior policies as well as the mixing time of the underlying system. Furthermore, we show that this rate of convergence is minimax, given only our assumptions on mixing and overlap. Our results establish that off-policy evaluation in POMDPs is strictly harder than off-policy evaluation in (fully observed) Markov decision processes but strictly easier than model-free off-policy evaluation.
Hu et al. (Tue,) reported a other. Partial history importance weighting estimator was evaluated on Stationary mean rewards of a target policy. A proposed partial history importance weighting estimator consistently estimates stationary mean rewards of a target policy in POMDPs, with a minimax rate of convergence.
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