63 Publications (Page 3 of 3)
2007
Allocentric visual cues influence online limb adjustments. Motor Control
 
Goal-directed reaching: Movement strategies influence the weighting of allocentric and egocentric visual cues
Experimental Brain Research. | Journal Article
 
Goal-directed reaching: Movement strategies influence the weighting of allocentric and egocentric visual cues. Experimental Brain Research
2006
Müller-Lyer figures influence the online reorganization of visually guided grasping movements.
Heath, Matthew DRival, ChristinaNeely, Kristina and Krigolson, Olav
Experimental brain research. Experimentelle Hirnforschung. Expérimentation cérébrale, vol. 169, (no. 4), pp. 473-81, 2006/Mar. | Journal Article
 
Visual feedback schedules influence visuomotor resistance to the Müller-Lyer figures
Heath, Matthew DRival, Christina and Neely, Kristina
Experimental Brain Research, vol. 168, (no. 3), pp. 348-56, Jan 2006. | Journal Article
2005
Manual asymmetries in bimanual reaching: the influence of spatial compatibility and visuospatial attention.
Neely, KristinaBinsted, Gordon and Heath, Matthew D
Brain and cognition, vol. 57, (no. 1), pp. 102-5, 2005/Feb. | Journal Article
 
Manual asymmetries in bimanual reaching: The influence of spatial compatibility and visuospatial attention. Brain and Cognition
 
Müller-Lyer figures influence the online reorganization of visually guided grasping movements
Experimental Brain Research. | Journal Article
 
Müller-Lyer figures influence the online reorganization of visually guided grasping movements. Experimental Brain Research
 
Time course analysis of closed- and open-loop grasping of the Müller-Lyer illusion
Heath, Matthew DRival, ChristinaWestwood, David A and Neely, Kristina
Journal of Motor Behavior. | Journal Article
 
Time course analysis of closed- and open-loop grasping of the Müller-Lyer illusion. Journal of Motor Behavior
 
Visual feedback schedules influence visuomotor resistance to the Müller-Lyer figures
Experimental Brain Research. | Journal Article
 
Visual feedback schedules influence visuomotor resistance to the Müller-Lyer figures. Experimental Brain Research