Related references
Note: Only part of the references are listed.Large perspective changes yield perception of metric shape that allows accurate feedforward reaches-to-grasp and it persists after the optic flow has stopped!
Young-Lim Lee et al.
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The affordance of barrier crossing in young children exhibits dynamic, not geometric, similarity
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EXPERIMENTAL BRAIN RESEARCH (2009)
Updating the programming of a precision grip is a function of recent history of available feedback
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EXPERIMENTAL BRAIN RESEARCH (2009)
Calibrating grasp size and reach distance: interactions reveal integral organization of reaching-to-grasp movements
Rachel Coats et al.
EXPERIMENTAL BRAIN RESEARCH (2008)
Poor shape perception is the reason reaches-to-grasp are visually guided online
Young-Lim Lee et al.
PERCEPTION & PSYCHOPHYSICS (2008)
Prehension is really reaching and grasping
Cornelis van de Kamp et al.
EXPERIMENTAL BRAIN RESEARCH (2007)
The effect of orientation on prehension movement time
Elsje van Bergen et al.
EXPERIMENTAL BRAIN RESEARCH (2007)
Simulated actions in the first and in the third person perspectives share common representations
Thierry Anquetil et al.
BRAIN RESEARCH (2007)
Effect of orienting the finger opposition space in the control of reach-to-grasp movements
MK Rand et al.
JOURNAL OF MOTOR BEHAVIOR (2005)
Perceptual judgement, grasp point selection and object symmetry
SJ Lederman et al.
EXPERIMENTAL BRAIN RESEARCH (2003)
Schema design and implementation of the grasp-related mirror neuron system
E Oztop et al.
BIOLOGICAL CYBERNETICS (2002)
Orientation of the opposition axis in mentally simulated grasping
V Frak et al.
EXPERIMENTAL BRAIN RESEARCH (2001)
The potentiation of grasp types during visual object categorization
M Tucker et al.
VISUAL COGNITION (2001)