PDDLStream: Integrating Symbolic Planners and Blackbox Samplers via Optimistic Adaptive Planning

Authors

  • Caelan Reed Garrett Massachusetts Institute of Technology
  • Tomás Lozano-Pérez Massachusetts Institute of Technology
  • Leslie Pack Kaelbling Massachusetts Institute of Technology

DOI:

https://doi.org/10.1609/icaps.v30i1.6739

Abstract

Many planning applications involve complex relationships defined on high-dimensional, continuous variables. For example, robotic manipulation requires planning with kinematic, collision, visibility, and motion constraints involving robot configurations, object poses, and robot trajectories. These constraints typically require specialized procedures to sample satisfying values. We extend PDDL to support a generic, declarative specification for these procedures that treats their implementation as black boxes. We provide domain-independent algorithms that reduce PDDLStream problems to a sequence of finite PDDL problems. We also introduce an algorithm that dynamically balances exploring new candidate plans and exploiting existing ones. This enables the algorithm to greedily search the space of parameter bindings to more quickly solve tightly-constrained problems as well as locally optimize to produce low-cost solutions. We evaluate our algorithms on three simulated robotic planning domains as well as several real-world robotic tasks.

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Published

2020-06-01

How to Cite

Garrett, C. R., Lozano-Pérez, T., & Kaelbling, L. P. (2020). PDDLStream: Integrating Symbolic Planners and Blackbox Samplers via Optimistic Adaptive Planning. Proceedings of the International Conference on Automated Planning and Scheduling, 30(1), 440-448. https://doi.org/10.1609/icaps.v30i1.6739