Title:

Solving Multi-Model MDPs by Coordinate Ascent and Dynamic Programming

Poster

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Abstract

Multi-model Markov decision process (MMDP) is a promising framework for computing policies that are robust to parameter uncertainty in MDPs. MMDPs aim to find a policy that maximizes the expected return over a distribution of MDP mod- els. Because MMDPs are NP-hard to solve, most methods resort to approximations. In this paper, we derive the policy gradient of MMDPs and propose CADP, which combines a coordinate ascent method and a dynamic programming algorithm for solving MMDPs. The main innovation of CADP compared with earlier algorithms is to take the coordinate ascent perspective to adjust model weights iteratively to guarantee monotone policy improvements to a local maximum. A theoretical analysis of CADP proves that it never performs worse than previous dynamic programming algorithms like WSU. Our numerical results indicate that CADP substantially outperforms existing methods on several benchmark problems.

Authors

First Name Last Name
Marek Petrik
Xihong Su

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Submission Details

Conference GRC
Event Graduate Research Conference
Department Computer Science (GRC)
Group Poster Presentation
Added March 29, 2024, 3:51 p.m.
Updated March 29, 2024, 3:59 p.m.
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