English

Informed Sampling for Asymptotically Optimal Path Planning (Consolidated Version)

Robotics 2018-08-20 v5

Abstract

Anytime almost-surely asymptotically optimal planners, such as RRT*, incrementally find paths to every state in the search domain. This is inefficient once an initial solution is found as then only states that can provide a better solution need to be considered. Exact knowledge of these states requires solving the problem but can be approximated with heuristics. This paper formally defines these sets of states and demonstrates how they can be used to analyze arbitrary planning problems. It uses the well-known L2L^2 norm (i.e., Euclidean distance) to analyze minimum-path-length problems and shows that existing approaches decrease in effectiveness factorially (i.e., faster than exponentially) with state dimension. It presents a method to address this curse of dimensionality by directly sampling the prolate hyperspheroids (i.e., symmetric nn-dimensional ellipses) that define the L2L^2 informed set. The importance of this direct informed sampling technique is demonstrated with Informed RRT*. This extension of RRT* has less theoretical dependence on state dimension and problem size than existing techniques and allows for linear convergence on some problems. It is shown experimentally to find better solutions faster than existing techniques on both abstract planning problems and HERB, a two-arm manipulation robot.

Keywords

Cite

@article{arxiv.1706.06454,
  title  = {Informed Sampling for Asymptotically Optimal Path Planning (Consolidated Version)},
  author = {Jonathan D Gammell and Timothy D Barfoot and Siddhartha S Srinivasa},
  journal= {arXiv preprint arXiv:1706.06454},
  year   = {2018}
}

Comments

This consolidated version presents the paper and its supplementary online material as a single document. 24 pages, 16 figures

R2 v1 2026-06-22T20:23:59.741Z