Detail publikačního výsledku

Small Decision Trees for MDPs with Deductive Synthesis

ANDRIUSHCHENKO, R.; ČEŠKA, M.; JUNGES, S.; MACÁK, F.

Originální název

Small Decision Trees for MDPs with Deductive Synthesis

Anglický název

Small Decision Trees for MDPs with Deductive Synthesis

Druh

Stať ve sborníku v databázi WoS či Scopus

Originální abstrakt

Markov decision processes (MDPs) describe decision making subject to probabilistic uncertainty. A classical problem on MDPs is to compute a policy, selecting actions in every state, that maximizes the probability of reaching a dedicated set of target states. Computing such policies in tabular form is efficiently possible via standard algorithms. However, for further processing by either humans or machines, policies should be represented concisely, e.g., as a decision tree. This paper considers finding (almost) optimal decision trees of minimal depth and contributes a deductive synthesis approach. Technically, we combine pruning the space of concise policies with an abstraction-refinement loop with an SMT-encoding that maps candidate policies into decision trees. Our experiments show that this approach beats the state-of-the-art solver using an MILP encoding by orders of magnitude. The approach also pairs well with heuristic approaches that map a fixed policy into a decision tree: for an MDP with 1.5M states, our approach reduces the size of the given tree by 90%, while sacrificing only 1% of the optimal performance.

Anglický abstrakt

Markov decision processes (MDPs) describe decision making subject to probabilistic uncertainty. A classical problem on MDPs is to compute a policy, selecting actions in every state, that maximizes the probability of reaching a dedicated set of target states. Computing such policies in tabular form is efficiently possible via standard algorithms. However, for further processing by either humans or machines, policies should be represented concisely, e.g., as a decision tree. This paper considers finding (almost) optimal decision trees of minimal depth and contributes a deductive synthesis approach. Technically, we combine pruning the space of concise policies with an abstraction-refinement loop with an SMT-encoding that maps candidate policies into decision trees. Our experiments show that this approach beats the state-of-the-art solver using an MILP encoding by orders of magnitude. The approach also pairs well with heuristic approaches that map a fixed policy into a decision tree: for an MDP with 1.5M states, our approach reduces the size of the given tree by 90%, while sacrificing only 1% of the optimal performance.

Klíčová slova

Markov Decision Processes; Decision trees; Deductive synthesis

Klíčová slova v angličtině

Markov Decision Processes; Decision trees; Deductive synthesis

Autoři

ANDRIUSHCHENKO, R.; ČEŠKA, M.; JUNGES, S.; MACÁK, F.

Vydáno

22.07.2025

Nakladatel

Springer Cham

ISBN

978-3-031-98678-9

Kniha

Computer Aided Verification

Strany od

169

Strany do

192

Strany počet

23

URL

https://doi.org/10.1007/978-3-031-98679-6_8

BibTex

@inproceedings{BUT198879,
  author="Roman {Andriushchenko} and Milan {Češka} and  {} and Filip {Macák}",
  title="Small Decision Trees for MDPs with Deductive Synthesis",
  booktitle="Computer Aided Verification",
  year="2025",
  pages="169--192",
  publisher="Springer Cham",
  doi="10.1007/978-3-031-98679-6\{_}8",
  isbn="978-3-031-98678-9",
  url="https://doi.org/10.1007/978-3-031-98679-6_8"
}