Sensors (Jun 2021)

Safe Path Planning Algorithms for Mobile Robots Based on Probabilistic Foam

  • Luís B. P. Nascimento,
  • Dennis Barrios-Aranibar,
  • Vitor G. Santos,
  • Diego S. Pereira,
  • William C. Ribeiro,
  • Pablo J. Alsina

DOI
https://doi.org/10.3390/s21124156
Journal volume & issue
Vol. 21, no. 12
p. 4156

Abstract

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The planning of safe paths is an important issue for autonomous robot systems. The Probabilistic Foam method (PFM) is a planner that guarantees safe paths bounded by a sequence of structures called bubbles that provides safe regions. This method performs the planning by covering the free configuration space with bubbles, an approach analogous to a breadth-first search. To improve the propagation process and keep the safety, we present three algorithms based on Probabilistic Foam: Goal-biased Probabilistic Foam (GBPF), Radius-biased Probabilistic Foam (RBPF), and Heuristic-guided Probabilistic Foam (HPF); the last two are proposed in this work. The variant GBPF is fast, HPF finds short paths, and RBPF finds high-clearance paths. Some simulations were performed using four different maps to analyze the behavior and performance of the methods. Besides, the safety was analyzed considering the new propagation strategies.

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