Learning Long-Horizon Action Dependencies in Sampling-Based Bilevel Planning

Bartlomiej Cieslar; Leslie Kaelbling; Tomás Lozano-Pérez; Jorge Mendez-Mendez

Learning Long-Horizon Action Dependencies in Sampling-Based Bilevel Planning

Bartlomiej Cieslar
, Leslie Kaelbling
, Tomás Lozano-Pérez
, Jorge Mendez-Mendez

Electrical Engineering

Massachusetts Institute of Technology

Research output: Contribution to journal › Conference article › peer-review

Abstract

Autonomous robots will need the ability to make task and motion plans that involve long sequences of actions, e.g. to prepare a meal. One challenge is that the feasibility of actions late in the plan may depend on much earlier actions. This issue is exacerbated if these dependencies exist at a purely geometric level, making them difficult to express for a task planner. Backtracking is a common technique to resolve such geometric dependencies, but its time complexity limits its applicability to short-horizon dependencies. We propose an approach to account for these dependencies by learning a search heuristic for task and motion planning. We evaluate our approach on five quasi-static simulated domains and show a substantial improvement in success rate over the baselines.

Original language	English
Pages (from-to)	4235-4252
Number of pages	18
Journal	Proceedings of Machine Learning Research
Volume	270
State	Published - 2024
Event	8th Conference on Robot Learning, CoRL 2024 - Munich, Germany Duration: Nov 6 2024 → Nov 9 2024

Keywords

learning for planning
long-horizon
task and motion planning

Cite this

@article{1b7d3e9eea6c4c8f983e51b8d73bc076,

title = "Learning Long-Horizon Action Dependencies in Sampling-Based Bilevel Planning",

abstract = "Autonomous robots will need the ability to make task and motion plans that involve long sequences of actions, e.g. to prepare a meal. One challenge is that the feasibility of actions late in the plan may depend on much earlier actions. This issue is exacerbated if these dependencies exist at a purely geometric level, making them difficult to express for a task planner. Backtracking is a common technique to resolve such geometric dependencies, but its time complexity limits its applicability to short-horizon dependencies. We propose an approach to account for these dependencies by learning a search heuristic for task and motion planning. We evaluate our approach on five quasi-static simulated domains and show a substantial improvement in success rate over the baselines.",

keywords = "learning for planning, long-horizon, task and motion planning",

author = "Bartlomiej Cieslar and Leslie Kaelbling and Tom{\'a}s Lozano-P{\'e}rez and Jorge Mendez-Mendez",

note = "Publisher Copyright: {\textcopyright} 2024 Proceedings of Machine Learning Research.; 8th Conference on Robot Learning, CoRL 2024 ; Conference date: 06-11-2024 Through 09-11-2024",

year = "2024",

language = "English",

volume = "270",

pages = "4235--4252",

journal = "Proceedings of Machine Learning Research",

issn = "2640-3498",

}

TY - JOUR

T1 - Learning Long-Horizon Action Dependencies in Sampling-Based Bilevel Planning

AU - Cieslar, Bartlomiej

AU - Kaelbling, Leslie

AU - Lozano-Pérez, Tomás

AU - Mendez-Mendez, Jorge

PY - 2024

Y1 - 2024

N2 - Autonomous robots will need the ability to make task and motion plans that involve long sequences of actions, e.g. to prepare a meal. One challenge is that the feasibility of actions late in the plan may depend on much earlier actions. This issue is exacerbated if these dependencies exist at a purely geometric level, making them difficult to express for a task planner. Backtracking is a common technique to resolve such geometric dependencies, but its time complexity limits its applicability to short-horizon dependencies. We propose an approach to account for these dependencies by learning a search heuristic for task and motion planning. We evaluate our approach on five quasi-static simulated domains and show a substantial improvement in success rate over the baselines.

AB - Autonomous robots will need the ability to make task and motion plans that involve long sequences of actions, e.g. to prepare a meal. One challenge is that the feasibility of actions late in the plan may depend on much earlier actions. This issue is exacerbated if these dependencies exist at a purely geometric level, making them difficult to express for a task planner. Backtracking is a common technique to resolve such geometric dependencies, but its time complexity limits its applicability to short-horizon dependencies. We propose an approach to account for these dependencies by learning a search heuristic for task and motion planning. We evaluate our approach on five quasi-static simulated domains and show a substantial improvement in success rate over the baselines.

KW - learning for planning

KW - long-horizon

KW - task and motion planning

UR - https://www.scopus.com/pages/publications/86000798687

M3 - Conference article

AN - SCOPUS:86000798687

SN - 2640-3498

VL - 270

SP - 4235

EP - 4252

JO - Proceedings of Machine Learning Research

JF - Proceedings of Machine Learning Research

T2 - 8th Conference on Robot Learning, CoRL 2024

Y2 - 6 November 2024 through 9 November 2024

ER -

Learning Long-Horizon Action Dependencies in Sampling-Based Bilevel Planning

Abstract

Keywords

Other files and links

Fingerprint

Cite this