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Approximate Dynamic Programming By Minimizing Distributionally Robust Bounds

Machine Learning 2012-05-22 v2 Machine Learning
Authors: Marek Petrik
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Abstract

Approximate dynamic programming is a popular method for solving large Markov decision processes. This paper describes a new class of approximate dynamic programming (ADP) methods- distributionally robust ADP-that address the curse of dimensionality by minimizing a pessimistic bound on the policy loss. This approach turns ADP into an optimization problem, for which we derive new mathematical program formulations and analyze its properties. DRADP improves on the theoretical guarantees of existing ADP methods-it guarantees convergence and L1 norm based error bounds. The empirical evaluation of DRADP shows that the theoretical guarantees translate well into good performance on benchmark problems.

Keywords

sampling algorithms global optimization theoretical bounds and convergence

Cite

@article{arxiv.1205.1782,
  title  = {Approximate Dynamic Programming By Minimizing Distributionally Robust Bounds},
  author = {Marek Petrik},
  journal= {arXiv preprint arXiv:1205.1782},
  year   = {2012}
}

Comments

In Proceedings of International Conference on Machine Learning, 2012

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