论文信息 - A system for the study of visuomotor coordination during reaching for moving targets

A system for the study of visuomotor coordination during reaching for moving targets

Prehensile behavior is a popular task in current research on human motor control. Most studies on reaching used stationary target objects and, therefore, most models do not address the challenges the motor system must respond to when reaching for moving objects. The machines used in earlier studies to produce object motion offered a limited range of trajectories and restricted control over various movement parameters. We have developed a device that allows a great variety of object trajectories along a flat-table surface and gives the experimenter full control over all movement parameters. A linear positioning system is used to move a sled beneath the table surface. Magnetic coupling transfers the sled's movement to the target object on the tabletop. This arrangement allows fast movements of the object (up to 5 m/s) and at the same time protects subjects from any harm due to the moving parts. The system is connected to LC shutter glasses, a 3-D movement registration device, and a switch that detects the onset of hand motion. This allows the selective withdrawal of vision during the reaching task or the introduction of changes in the object motion depending on the subject's reactions.

[1] M. Jeannerod,et al. Reaching and grasping. Parallel specification of visuomotor channels. , 1996 .

[2] B J McFadyen,et al. Visuomotor control when reaching toward and grasping moving targets. , 1996, Acta psychologica.

[3] Peter M. Vishton,et al. Predictive action in infancy: tracking and reaching for moving objects , 1998, Cognition.

[4] Norbert Mai,et al. Time constraints improve reaching movements in an ataxic patient , 1999, Experimental Brain Research.

[5] R. J. Bootsma,et al. Coordination in prehension Information-based coupling of reaching and grasping , 1998, Experimental Brain Research.

[6] Michael A. Arbib,et al. Perceptual Structures and Distributed Motor Control , 1981 .

[7] David A. Rosenbaum,et al. Reaching and Grasping , 1990 .

[8] M. A. Arbib,et al. Models of Trajectory Formation and Temporal Interaction of Reach and Grasp. , 1993, Journal of motor behavior.

[9] E. Brenner,et al. A new view on grasping. , 1999, Motor control.

[10] J. Flanagan,et al. The reaching movements of patients with Parkinson's disease under self-determined maximal speed and visually cued conditions. , 1998, Brain : a journal of neurology.

[11] M. Glickstein,et al. Paradoxical movement in Parkinson's disease , 1991, Trends in Neurosciences.