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Learned Critical Probabilistic Roadmaps for Robotic Motion Planning

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arxiv 1910.03701 v1 pith:IIEVSE4Q submitted 2019-10-08 cs.RO cs.LG

Learned Critical Probabilistic Roadmaps for Robotic Motion Planning

classification cs.RO cs.LG
keywords criticalmotionplanningstatesgraphonlyprobabilisticroadmaps
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Sampling-based motion planning techniques have emerged as an efficient algorithmic paradigm for solving complex motion planning problems. These approaches use a set of probing samples to construct an implicit graph representation of the robot's state space, allowing arbitrarily accurate representations as the number of samples increases to infinity. In practice, however, solution trajectories only rely on a few critical states, often defined by structure in the state space (e.g., doorways). In this work we propose a general method to identify these critical states via graph-theoretic techniques (betweenness centrality) and learn to predict criticality from only local environment features. These states are then leveraged more heavily via global connections within a hierarchical graph, termed Critical Probabilistic Roadmaps. Critical PRMs are demonstrated to achieve up to three orders of magnitude improvement over uniform sampling, while preserving the guarantees and complexity of sampling-based motion planning. A video is available at https://youtu.be/AYoD-pGd9ms.

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