Title :
3D Virtual Haptic Cone for Intuitive Vehicle Motion Control
Author :
Horan, B. ; Najdovski, Z. ; Nahavandi, S. ; Tunstel, E.
Author_Institution :
Deakin Univ., Geelong
Abstract :
Haptic human-machine interfaces and interaction techniques have been shown to offer advantages over conventional approaches. This work introduces the 3D virtual haptic cone with the aim of improving human remote control of a vehicle´s motion. The 3D cone introduces a third dimension to the haptic control surface over existing approaches. This approach improves upon existing methods by providing the human operator with an intuitive method for issuing vehicle motion commands whilst simultaneously receiving real-time haptic information from the remote system. The presented approach offers potential across many applications, and as a case study, this work considers the approach in the context of mobile robot motion control. The performance of the approach in providing the operator with improved motion controllability is evaluated and the performance improvement determined.
Keywords :
control engineering computing; haptic interfaces; human computer interaction; mobile robots; path planning; telerobotics; virtual reality; 3D virtual haptic cone; haptic human-machine interface; human remote control; human-machine interaction; intuitive vehicle motion control; teleoperated mobile robot motion control; Computational intelligence; Haptic interfaces; Humans; Intelligent robots; Man machine systems; Mobile robots; Motion control; Remotely operated vehicles; Robot control; Robot sensing systems; H.5.2 [User Interfaces]: Haptic I/O; Haptic motion control; I.2.9 [Robotics]: Operator interfaces; bilateral haptic robot control; haptic mobile robot control;
Conference_Titel :
3D User Interfaces, 2008. 3DUI 2008. IEEE Symposium on
Conference_Location :
Reno, NE
Print_ISBN :
978-1-4244-2047-6
DOI :
10.1109/3DUI.2008.4476594
