Litcius/Paper detail

People's Adaptive Side-by-Side Model Evolved to Accompany Groups of People by Social Robots

Ely Repiso, Anaís Garrell, Alberto Sanfeliu

2020IEEE Robotics and Automation Letters29 citationsDOI

Abstract

The presented method implements a robot accompaniment in an adaptive side-by-side formation of a single person or a group of people. The method enhances our previous robot adaptive side-by-side behavior allowing the robot to accompany a group of people, not only one person. Adaptive means that the robot is capable to adjust its position and velocity to the behavior of the group being accompanied, without bothering other pedestrians in the environment, as well as facilitating the group navigation to avoid static and dynamic obstacles. Furthermore, the robot can deal with the random factor of human behavior in several situations. Firstly, if other people interfere in the path of the companions, the robot leaves space for the person of the group that has to avoid those other people, by approaching the other companion. Also, without invading any personal space. Secondly, if the people of the group changes their physical position inside the group formation, then the robot adapts to them dynamically by changing from the lateral position to the central position of the formation or otherwise. Thirdly, the robot adapts to changes in the velocity of people in the group and other people that interfere in the path of the group, in magnitude and orientation. Fourthly, the robot can deal with occlusions of one accompanied person by the other. The method has been validated using synthetic experiments and real-life experiments with our robot. Finally, we developed an user study comparing the method with a Wizard of Oz.

Topics & Concepts

RobotPosition (finance)Social robotArtificial intelligencePath (computing)Computer scienceOrientation (vector space)Computer visionMobile robotGroup (periodic table)Robot controlSimulationHuman–computer interactionMathematicsEconomicsProgramming languageFinanceChemistryOrganic chemistryGeometryEvacuation and Crowd DynamicsSocial Robot Interaction and HRIRobotic Path Planning Algorithms