Online Resource Allocation in Episodic Markov Decision Processes
May 18, 2023 Β· Declared Dead Β· π arXiv.org
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Authors
Duksang Lee, William Overman, Dabeen Lee
arXiv ID
2305.10744
Category
cs.DS: Data Structures & Algorithms
Cross-listed
cs.LG,
math.OC
Citations
1
Venue
arXiv.org
Last Checked
4 months ago
Abstract
This paper studies a long-term resource allocation problem over multiple periods where each period requires a multi-stage decision-making process. We formulate the problem as an online allocation problem in an episodic finite-horizon constrained Markov decision process with an unknown non-stationary transition function and stochastic non-stationary reward and resource consumption functions. We propose the observe-then-decide regime and improve the existing decide-then-observe regime, while the two settings differ in how the observations and feedback about the reward and resource consumption functions are given to the decision-maker. We develop an online dual mirror descent algorithm that achieves near-optimal regret bounds for both settings. For the observe-then-decide regime, we prove that the expected regret against the dynamic clairvoyant optimal policy is bounded by $\tilde O(Ο^{-1}{H^{3/2}}S\sqrt{AT})$ where $Ο\in(0,1)$ is the budget parameter, $H$ is the length of the horizon, $S$ and $A$ are the numbers of states and actions, and $T$ is the number of episodes. For the decide-then-observe regime, we show that the regret against the static optimal policy that has access to the mean reward and mean resource consumption functions is bounded by $\tilde O(Ο^{-1}{H^{3/2}}S\sqrt{AT})$ with high probability. We test the numerical efficiency of our method for a variant of the resource-constrained inventory management problem.
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