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Discovering State and Action Abstractions for Generalized Task and Motion Planning

Aidan Curtis, Tom Silver, Joshua B. Tenenbaum, Tomás Lozano‐Pérez, Leslie Pack Kaelbling

2022Proceedings of the AAAI Conference on Artificial Intelligence15 citationsDOIOpen Access PDF

Abstract

Generalized planning accelerates classical planning by finding an algorithm-like policy that solves multiple instances of a task. A generalized plan can be learned from a few training examples and applied to an entire domain of problems. Generalized planning approaches perform well in discrete AI planning problems that involve large numbers of objects and extended action sequences to achieve the goal. In this paper, we propose an algorithm for learning features, abstractions, and generalized plans for continuous robotic task and motion planning (TAMP) and examine the unique difficulties that arise when forced to consider geometric and physical constraints as a part of the generalized plan. Additionally, we show that these simple generalized plans learned from only a handful of examples can be used to improve the search efficiency of TAMP solvers.

Topics & Concepts

Task (project management)Plan (archaeology)Computer scienceAction (physics)Motion planningMotion (physics)Domain (mathematical analysis)Simple (philosophy)State (computer science)Artificial intelligenceMathematical optimizationRobotAlgorithmMathematicsEngineeringMathematical analysisSystems engineeringHistoryPhilosophyPhysicsArchaeologyEpistemologyQuantum mechanicsAI-based Problem Solving and PlanningMachine Learning and AlgorithmsRobotic Path Planning Algorithms
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