Title :
Human-Robot Formation Control via Visual and Vibrotactile Haptic Feedback
Author :
Scheggi, Stefano ; Morbidi, Fabio ; Prattichizzo, Domenico
Author_Institution :
Dept. of Inf. Eng. & Math., Univ. of Siena, Siena, Italy
Abstract :
In this paper we present a new visuo-haptic interaction mechanism for human-robot formation control. The formation setup consists of a human leader and multiple follower robots. The mobile robots are equipped only with RGB-D cameras, and they should maintain a desired distance and orientation to the leader at all times. Mechanical limitations common to all the robots limit the possible trajectories that the human can take. In this regard, vibrotactile feedback provided by a haptic bracelet guides the human along trajectories that are feasible for the team by warning her/him when the formation constraints are being violated. Psychophysical tests on the bracelet together with real-world experiments conducted with a team of Pioneer robots show the effectiveness of the proposed visuo-haptic paradigm for the coordination of mixed human-robot teams.
Keywords :
haptic interfaces; human-robot interaction; image colour analysis; mobile robots; multi-robot systems; robot vision; trajectory control; Pioneer robots; RGB-D cameras; follower robots; formation constraints; haptic bracelet; human leader; human-robot formation control; mechanical limitations; mixed human-robot teams; mobile robots; psychophysical tests; trajectories; vibrotactile haptic feedback; visual haptic feedback; visuo-haptic interaction mechanism; visuo-haptic paradigm; Cameras; Haptic interfaces; Humanoid robots; Mobile robots; Robot kinematics; Robot vision systems; Haptic I/O; autonomous vehicles; design for wearability; human-robot team; vibrotactile feedback;
Journal_Title :
Haptics, IEEE Transactions on
DOI :
10.1109/TOH.2014.2332173
