Related references
Note: Only part of the references are listed.Why does an obstacle just below the digits' paths not influence a grasping movement while an obstacle to the side of their paths does?
Rebekka Verheij et al.
EXPERIMENTAL BRAIN RESEARCH (2014)
The influence of target object shape on maximum grip aperture in human grasping movements
Rebekka Verheij et al.
EXPERIMENTAL BRAIN RESEARCH (2014)
The visibility of contact points influences grasping movements
Robert Volcic et al.
EXPERIMENTAL BRAIN RESEARCH (2014)
Binocular vision enhances a rapidly evolving affordance priming effect: Behavioural and TMS evidence
Stergios Makris et al.
BRAIN AND COGNITION (2013)
Why do the eyes prefer the index finger? Simultaneous recording of eye and hand movements during precision grasping
Cristiana Cavina-Pratesi et al.
JOURNAL OF VISION (2013)
Gaze strategies during visually-guided versus memory-guided grasping
Steven L. Prime et al.
EXPERIMENTAL BRAIN RESEARCH (2013)
Dual Cognitive Task Affects Reaching and Grasping Behavior in Subjects With Macular Disorders
Shahina Pardhan et al.
INVESTIGATIVE OPHTHALMOLOGY & VISUAL SCIENCE (2013)
Do obstacles affect the selection of grasping points?
D. Voudouris et al.
HUMAN MOVEMENT SCIENCE (2012)
Do Humans Prefer to See Their Grasping Points?
D. Voudouris et al.
JOURNAL OF MOTOR BEHAVIOR (2012)
Cortical Dynamics of Sensorimotor Integration during Grasp Planning
Lennart Verhagen et al.
JOURNAL OF NEUROSCIENCE (2012)
Grasping Kinematics from the Perspective of the Individual Digits: A Modelling Study
Rebekka Verheij et al.
PLOS ONE (2012)
Getting a grip: different actions and visual guidance of the thumb and finger in precision grasping
Dean R. Melmoth et al.
EXPERIMENTAL BRAIN RESEARCH (2012)
Disparity-Tuned Population Responses from Human Visual Cortex
Benoit R. Cottereau et al.
JOURNAL OF NEUROSCIENCE (2011)
How does the presence and duration of central visual impairment affect reaching and grasping movements?
Shahina Pardhan et al.
OPHTHALMIC AND PHYSIOLOGICAL OPTICS (2011)
Graspability of objects affects gaze patterns during perception and action tasks
Loni Desanghere et al.
EXPERIMENTAL BRAIN RESEARCH (2011)
Looking at the center of the targets helps multiple object tracking
Hilda M. Fehd et al.
JOURNAL OF VISION (2010)
A solution to the online guidance problem for targeted reaches: proportional rate control using relative disparity τ
Joe Anderson et al.
EXPERIMENTAL BRAIN RESEARCH (2010)
Changes to Control of Adaptive Gait in Individuals with Long-standing Reduced Stereoacuity
John G. Buckley et al.
INVESTIGATIVE OPHTHALMOLOGY & VISUAL SCIENCE (2010)
A Distinct Representation of Three-Dimensional Shape in Macaque Anterior Intraparietal Area: Fast, Metric, and Coarse
Siddharth Srivastava et al.
JOURNAL OF NEUROSCIENCE (2009)
Is That within Reach? fMRI Reveals That the Human Superior Parieto-Occipital Cortex Encodes Objects Reachable by the Hand
Jason P. Gallivan et al.
JOURNAL OF NEUROSCIENCE (2009)
The role of binocular vision in grasping: a small stimulus-set distorts results
Bruce D. Keefe et al.
EXPERIMENTAL BRAIN RESEARCH (2009)
Grasping Deficits and Adaptations in Adults with Stereo Vision Losses
Dean R. Melmoth et al.
INVESTIGATIVE OPHTHALMOLOGY & VISUAL SCIENCE (2009)
Gaze behavior when reaching to remembered targets
J. Randall Flanagan et al.
JOURNAL OF NEUROPHYSIOLOGY (2008)
Perceptuo-motor interactions during prehension movements
Lennart Verhagen et al.
JOURNAL OF NEUROSCIENCE (2008)
Attentional costs in multiple-object tracking
Michael Tombu et al.
COGNITION (2008)
Dissociation between vergence and binocular disparity cues in the control of prehension
Dean R. Melmoth et al.
EXPERIMENTAL BRAIN RESEARCH (2007)
fMRI reveals a preference for near viewing in the human parieto-occipital cortex
D. J. Quinlan et al.
NEUROIMAGE (2007)
Prehension deficits in amblyopia
Simon Grant et al.
INVESTIGATIVE OPHTHALMOLOGY & VISUAL SCIENCE (2007)
Effects of visual uncertainty on grasping movements
Erik J. Schlicht et al.
EXPERIMENTAL BRAIN RESEARCH (2007)
Dual-task interference is greater in delayed grasping than in visually guided grasping
Anthony Singhal et al.
JOURNAL OF VISION (2007)
Intact automatic avoidance of obstacles in patients with visual form agnosia
Nichola J. Rice et al.
EXPERIMENTAL BRAIN RESEARCH (2006)
Advantages of binocular vision for the control of reaching and grasping
Dean R. Melmoth et al.
EXPERIMENTAL BRAIN RESEARCH (2006)
Integrating visual cues for motor control: A matter of time
HS Greenwald et al.
VISION RESEARCH (2005)
Reaching for visual cues to depth: The brain combines depth cues differently for motor control and perception
DC Knill
JOURNAL OF VISION (2005)
Automatic avoidance of obstacles is a dorsal stream function: evidence from optic ataxia
I Schindler et al.
NATURE NEUROSCIENCE (2004)
Binocular cues and the control of prehension
MF Bradshaw et al.
SPATIAL VISION (2004)
Preserved obstacle avoidance during reaching in patients with left visual neglect
RD McIntosh et al.
NEUROPSYCHOLOGIA (2004)
The visual control of reaching and grasping: Binocular disparity and motion parallax
SJ Watt et al.
JOURNAL OF EXPERIMENTAL PSYCHOLOGY-HUMAN PERCEPTION AND PERFORMANCE (2003)
The relevance of stereopsis for motorists: a pilot study
A Bauer et al.
GRAEFES ARCHIVE FOR CLINICAL AND EXPERIMENTAL OPHTHALMOLOGY (2001)
The role of familiar size in the control of grasping
JJ Marotta et al.
JOURNAL OF COGNITIVE NEUROSCIENCE (2001)
A test between two hypotheses and a possible third way for the control of prehension
M Mon-Williams et al.
EXPERIMENTAL BRAIN RESEARCH (2000)
Binocular cues are important in controlling the grasp but not the reach in natural prehension movements
SJ Watt et al.
NEUROPSYCHOLOGIA (2000)