• DocumentCode
    2463502
  • Title

    Virtual peg-in-hole performance using a 6-DOF magnetic levitation haptic device: comparison with real forces and with visual guidance alone

  • Author

    Berkelman, P.J. ; Thompson, Andrew ; Lederman, S. ; Klatzky, Roberta L. ; Hollis, Ralph L.

  • fYear
    2002
  • fDate
    2002
  • Firstpage
    263
  • Lastpage
    270
  • Abstract
    We describe two experiments using three testbeds (real, virtual and vision-only) for comparison of user performance during 3-D peg-in-hole tasks. Tasks are performed using a six-degree-of-freedom (6-DOF) magnetic levitation haptic device. The experimental design allows a user to experience real and virtual forces using the same device. The first experiment compares real and virtual tasks. In the virtual task, a peg and hole are rendered haptically and visually. During the real task, a physical peg is attached to the underside of the haptic device. A hole in a plate attached to a force/torque sensor receives the peg. The second experiment compares a virtual haptic task to one performed using vision alone. Preliminary results indicate increased task time, more variation in force and position, and more failures occur with the virtual task than with the real task. More variation in force and position, and more failures occur with the vision-only task than with the virtual task. Users apply similar strategies for virtual and real tasks. Virtual haptic display, while worse than reality, contributes significantly to task performance when compared to vision alone
  • Keywords
    force feedback; haptic interfaces; magnetic levitation; virtual reality; magnetic levitation haptic device; peg-in-hole tasks; physical peg; task performance; user performance; virtual haptic task; virtual task; Displays; Feedback; Force measurement; Force sensors; Haptic interfaces; Magnetic levitation; Performance analysis; Psychology; Testing; Torque;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Haptic Interfaces for Virtual Environment and Teleoperator Systems, 2002. HAPTICS 2002. Proceedings. 10th Symposium on
  • Conference_Location
    Orlando, FL
  • Print_ISBN
    0-7695-1489-8
  • Type

    conf

  • DOI
    10.1109/HAPTIC.2002.998967
  • Filename
    998967