Robots' Motion Planning in Human Crowds by Acceleration Obstacles

Gonon, David J.; Paez-Granados, Diego; Billard, Aude

doi:10.1109/LRA.2022.3199818

Gonon, David J.; Paez-Granados, Diego; Billard, Aude

2022

Download

Formats

Format
BibTeX
MARC
MARCXML
DublinCore
EndNote
NLM
RefWorks
RIS

Files

Abstract

We study the Acceleration Obstacle (AO) as a concept to enable a robot's navigation in human crowds. The AO's geometric properties are analyzed and a direct sampling-free algorithm is proposed to approximate its boundary by linear constraints. The resulting controller is formulated as a quadratic program and evaluated in interaction with simulated bi-directional crowd flow in a corridor. We compare it to alternative robotic controllers, considering the robot's and the crowd's performance and the robot's behavior with respect to emergent lanes. Our results indicate that the robot can achieve higher efficiency when being less integrated in lanes.

Details

Title Robots' Motion Planning in Human Crowds by Acceleration Obstacles

Author(s) Gonon, David J. ; Paez-Granados, Diego ; Billard, Aude

Published in Ieee Robotics And Automation Letters

Volume 7

Issue 4

Pages 11236-11243

Date 2022-10-01

Publisher Piscataway, IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC

ISSN 2377-3766

Keywords

automation technologies for smart cities; human-aware motion planning; path planning for multiple mobile robots or agents

DOI https://doi.org/10.1109/LRA.2022.3199818

Other identifier(s) View record in Web of Science

Laboratories LASA

Record Appears in Scientific production and competences > STI - School of Engineering > IEM - Institut d'Electricité et de Microtechnique > LASA - Learning algorithms and systems Laboratory
Peer-reviewed publications
Work produced at EPFL
Journal Articles
Published

Record creation date 2022-09-12

Actions

Preview

Select file: