Section Patterns: Efficiently Solving Narrow Passage Problems in Multilevel Motion Planning

Orthey, Andreas; Toussaint, Marc

doi:10.48550/arxiv.2010.14524

Cited by 1 publication

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References 88 publications

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“…The SECTIONTEST method helps to overcome narrow passages, but is not essential for the understanding of this paper -we use it as a black box within SMLR. Please see our previous publication [24] for more information.…”

Section: Sparse Roadmapsmentioning

confidence: 99%

Sparse Multilevel Roadmaps for High-Dimensional Robotic Motion Planning

Orthey

Toussaint

2021

2021 IEEE International Conference on Robotics and Automation (ICRA)

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Sparse roadmaps are important to compactly represent state spaces, to determine problems to be infeasible and to terminate in finite time. However, sparse roadmaps do not scale well to high-dimensional planning problems. In prior work, we showed improved planning performance on highdimensional planning problems by using multilevel abstractions to simplify state spaces. In this work, we generalize sparse roadmaps to multilevel abstractions by developing a novel algorithm, the sparse multilevel roadmap planner (SMLR). To this end, we represent multilevel abstractions using the language of fiber bundles, and generalize sparse roadmap planners by using the concept of restriction sampling with visibility regions. We argue SMLR to be probabilistically complete and asymptotically near-optimal by inheritance from sparse roadmap planners. In evaluations, we outperform sparse roadmap planners on challenging planning problems, in particular problems which are high-dimensional, contain narrow passages or are infeasible. We thereby demonstrate sparse multilevel roadmaps as an efficient tool for feasible and infeasible high-dimensional planning problems.

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Section: Sparse Roadmapsmentioning

confidence: 99%