English

Multi-Task Option Learning and Discovery for Stochastic Path Planning

Machine Learning 2022-12-09 v2 Artificial Intelligence Robotics

Abstract

This paper addresses the problem of reliably and efficiently solving broad classes of long-horizon stochastic path planning problems. Starting with a vanilla RL formulation with a stochastic dynamics simulator and an occupancy matrix of the environment, our approach computes useful options with policies as well as high-level paths that compose the discovered options. Our main contributions are (1) data-driven methods for creating abstract states that serve as endpoints for helpful options, (2) methods for computing option policies using auto-generated option guides in the form of dense pseudo-reward functions, and (3) an overarching algorithm for composing the computed options. We show that this approach yields strong guarantees of executability and solvability: under fairly general conditions, the computed option guides lead to composable option policies and consequently ensure downward refinability. Empirical evaluation on a range of robots, environments, and tasks shows that this approach effectively transfers knowledge across related tasks and that it outperforms existing approaches by a significant margin.

Keywords

Cite

@article{arxiv.2210.00068,
  title  = {Multi-Task Option Learning and Discovery for Stochastic Path Planning},
  author = {Naman Shah and Siddharth Srivastava},
  journal= {arXiv preprint arXiv:2210.00068},
  year   = {2022}
}
R2 v1 2026-06-28T02:29:28.787Z