English

Learning General Policies from Small Examples Without Supervision

Artificial Intelligence 2021-02-19 v2

Abstract

Generalized planning is concerned with the computation of general policies that solve multiple instances of a planning domain all at once. It has been recently shown that these policies can be computed in two steps: first, a suitable abstraction in the form of a qualitative numerical planning problem (QNP) is learned from sample plans, then the general policies are obtained from the learned QNP using a planner. In this work, we introduce an alternative approach for computing more expressive general policies which does not require sample plans or a QNP planner. The new formulation is very simple and can be cast in terms that are more standard in machine learning: a large but finite pool of features is defined from the predicates in the planning examples using a general grammar, and a small subset of features is sought for separating "good" from "bad" state transitions, and goals from non-goals. The problems of finding such a "separating surface" while labeling the transitions as "good" or "bad" are jointly addressed as a single combinatorial optimization problem expressed as a Weighted Max-SAT problem. The advantage of looking for the simplest policy in the given feature space that solves the given examples, possibly non-optimally, is that many domains have no general, compact policies that are optimal. The approach yields general policies for a number of benchmark domains.

Keywords

Cite

@article{arxiv.2101.00692,
  title  = {Learning General Policies from Small Examples Without Supervision},
  author = {Guillem Francès and Blai Bonet and Hector Geffner},
  journal= {arXiv preprint arXiv:2101.00692},
  year   = {2021}
}

Comments

AAAI 2021, version extended with appendix containing full proofs and experimental details

R2 v1 2026-06-23T21:43:44.385Z