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Reactive Navigation in Crowds for Non-Holonomic Robots With Convex Bounding Shape

David Gonon, Diego Páez-Granados, Aude Billard

2021IEEE Robotics and Automation Letters24 citationsDOIOpen Access PDF

Abstract

This letter describes a novel method for non-holonomic robots of convex shape to avoid imminent collisions with moving obstacles. The method's purpose is to assist navigation in crowds by correcting steering from the robot's path planner or driver. We evaluate its performance using a custom simulator which replicates real crowd movements and corresponding metrics which quantify agents' efficiency and the robot's impact on the crowd and count collisions. We implement and evaluate the method on the standing wheelchair Qolo. In our experiments, it drives in autonomous mode using on-board sensing (LiDAR, RGB-D camera and a system to track pedestrians) and avoids collisions with up to five pedestrians and passes through a door.

Topics & Concepts

CrowdsHolonomicRobotComputer scienceComputer visionBounding overwatchArtificial intelligencePedestrianCrowd simulationSimulationEngineeringTransport engineeringComputer securityRobotic Path Planning AlgorithmsRobotics and Sensor-Based LocalizationEvacuation and Crowd Dynamics
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