Title :
Immersive ROS-integrated framework for robot teleoperation
Author :
Peppoloni, Lorenzo ; Brizzi, Filippo ; Avizzano, Carlo Alberto ; Ruffaldi, Emanuele
Author_Institution :
PERCRO Lab., Scuola Superiore Sant´Anna, Pisa, Italy
Abstract :
The development of natural interfaces for human-robot interaction provides the user an intuitive way to control and guide robots. In this paper, we propose a novel ROS (Robot Operating System)-integrated interface for remote control that allows the user to teleoperate the robot using his hands motion. The user can adjust online the autonomy of the robot between two levels: direct control and waypoint following. The hand tracking and gestures recognition capabilities of the Leap Motion device are exploited to generate the control commands. The user receives a real-time 3D augmented visual feedback using a Kinect sensor and a HMD. To assess the practicability of the system experimental results are presented using as a benchmark the remote control of a Kuka Youbot.
Keywords :
augmented reality; emotion recognition; feedback; helmet mounted displays; human-robot interaction; operating systems (computers); robot programming; telerobotics; HMD; Kinect sensor; Kuka Youbot; control commands; direct control; gesture recognition capabilities; hand tracking; human-robot interaction; immersive ROS-integrated framework; leap motion device; natural interfaces; real-time 3D augmented visual feedback; remote control; robot control; robot guidance; robot operating system-integrated interface; robot teleoperation; waypoint following; Control systems; Robot sensing systems; Service robots; Three-dimensional displays; Tracking; Visualization; 3D Interaction; augmented reality; gesture;
Conference_Titel :
3D User Interfaces (3DUI), 2015 IEEE Symposium on
Conference_Location :
Arles
DOI :
10.1109/3DUI.2015.7131758
