Abstract
Using virtual objects that provided haptic feedback we studied twofingered movements of reaching to grasp and lift an object. These reach-grasplift movements were directed to objects of identical physical size but with the different physical properties of mass, and coefficient of friction between the floor and object. For each condition, the resulting forces and kinematic properties of movements were recorded after a brief amount of practice with reaching to grasp and lift the object. It was found that for conditions where the object was more stable to perturbation, such as large mass or high friction, the contact force with the object was greater. This suggests that the stability of the object is quickly and easily learned and subsequently influences the accuracy of the movement. The possibility is discussed that such programming of contact force is incorporated into the planning of grasps and how this would interact with the execution of grasps to virtual objects with and without haptic feedback.
Acknowledgements
We thank Peter Giblin for helpful suggestions.
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References
Pollick, F.E.: Virtual Surfaces and the Influence of Cues to Surface Shape on Grasp. Virtual Reality 3 (1998) 85–101
Teasdale N., Schmidt, R.A.: Deceleration Requirements and the Control of Pointing Movements. Journal of Motor Behavior 23 1991 131–138
Jeannerod, M.: The Neural and Behavioral Organization of Goal-Directed Movements. Clarendon Press, Oxford (1988)
Jeannerod, M.: The Cognitive Neuroscience of Action. Blackwell, Oxford (1997)
Mackenzie, C.L., Iberall, T.: The grasping hand. Elsevier-North Holland, Amsterdam (1994)
Smeets, J.B.J., Brenner, E.: A New View on Grasping. Motor Control, 3 (1999) 237–271
Fikes, T.G., Klatzky, R.L., Lederman, S.J.: Effects of Object Texture on Precontact Movement Time in Human Prehension. Journal of Motor Behavior 26 (1994) 325–332
Savelsbergh, G.J.P., Steenbergen, B., van der Kamp, J.: The Role of Fragility Information in the Guidance of the Precision Grip. Human Movement Science 15 (1996) 115–127
Wing, A.M., Turton, A., Fraser, C.S.O.: Grasp Size and Accuracy of Approach in Reaching. Journal of Motor Behavior 18 (1986) 245–260
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© 2001 Springer-Verlag Berlin Heidelberg
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Pollick, F.E., Chizk, C., Hager-Ross, C., Hayhoe, M. (2001). Implicit accuracy constraints in two-fingered grasps of virtual objects with haptic feedback. In: Brewster, S., Murray-Smith, R. (eds) Haptic Human-Computer Interaction. Haptic HCI 2000. Lecture Notes in Computer Science, vol 2058. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-44589-7_11
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DOI: https://doi.org/10.1007/3-540-44589-7_11
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