首页 | 本学科首页   官方微博 | 高级检索  
     


The speed-accuracy trade-off in manual prehension: effects of movement amplitude,object size and object width on kinematic characteristics
Authors:Reinoud J. Bootsma  Ronald G. Marteniuk  Christine L. MacKenzie  Frank T. J. M. Zaal
Affiliation:(1) Faculty of Sport Sciences, University of Aix-Marseille II, 163 Av. de Luminy, F-13009 Marseille, France;(2) Department of Kinesiology, Simon Fraser University, Burnaby, BC, Canada;(3) Faculty of Human Movement Sciences, Free University, Amsterdam, The Netherlands
Abstract:Earlier studies have suggested that the size of an object to be grasped influences the time taken to complete a prehensile movement. However, the use of cylindrical objects in those studies confounded the effects of object size — extent orthogonal to the reach axis — and object width — extent along the reach axis. In separating these effects, the present study demonstrates that movement time is not affected by manipulation of object size, as long as the latter does not approach the maximal object size that can be grasped. Object width, on the other hand, is shown to exert a systematic influence on movement time: Smaller object widths give rise to longer movement times through a lengthening of the deceleration phase of the movement, thus reproducing the effect of target width on the kinematics of aiming movements. As in aiming, movement amplitude also affects the movement time in prehension, influencing primarily the acceleration phase (i.e. peak velocity attained). The effects of object width and movement amplitude were found to combine in a way predicted by Fitts' law, allowing a generalisation of the latter to the transport component in prehensile actions. With respect to the grasp component, both object size and object width are shown to affect peak hand aperture. Increasing object width thus lowers the spatial accuracy demands on the transport component, permitting a faster movement to emerge. At the same time, the hand opens to a larger grip in order to compensate for eventual directional errors that result. Finally, with respect to the control mode of the grasp component, it was found that peak finger closing velocity scales to distance to be covered, defined as the peak hand aperture minus object size.
Keywords:Motor control  Speed-accuracy trade-off  Prehension  Human
本文献已被 SpringerLink 等数据库收录!
设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号