Add to ORKGItem does not contain fulltextThe neural mechanisms that specify target locations for gaze shifts and then convert these into desired patterns of coordinated eye and head movements are complex. Much of this complexity is only revealed when one takes a realistic three-dimensional (3-D) view of these processes, where fundamental computational problems such as kinematic redundancy, reference-frame transformations, and non-commutativity emerge. Here we review the underlying mechanisms and solutions for these problems, starting with a consideration of the kinematics of 3-D gaze shifts in human and non-human primates. We then consider the neural mechanisms, including cortical representation of gaze targets, the nature of the gaze motor command us...
To explore the visible world, humans and other animals rapidly shift their line of sight to potentia...
We used transneuronal retrograde transport and electrical simulation to study the anatomy of the ocu...
A neural model is described of how the brain may autonomously learn a body-centered representation o...
The neural mechanisms that specify target locations for gaze shifts and then convert these into desi...
J. Douglas Crawford. Contribution of head movement to gaze command coding in monkey frontal cortex a...
Movements which change the direction of the line of sight can be made up of movements of the eyes, h...
Primates have several reflexes that generate eye movements to compensate for bodily movements that w...
Contains fulltext : 64567.pdf (publisher's version ) (Closed access)Eye–hand coord...
A sensorimotor neuron’s receptive field and its frame of reference are easily conflated within the n...
A fundamental question in sensorimotor control concerns the transformation of spatial signals from t...
This chapter reviews current ideas on the neural control of eye and head movements, with special emp...
require a nonlinear, eye orientation–dependent reference frame trans-formation to transform visual c...
AbstractThe supplementary eye field (SEF) is a region within medial frontal cortex that integrates c...
Shifting the line of sight is naturally accomplished by the movements of both eye and head. We are s...
Research conducted over the last decades has established that the medial part of posterior parietal ...
To explore the visible world, humans and other animals rapidly shift their line of sight to potentia...
We used transneuronal retrograde transport and electrical simulation to study the anatomy of the ocu...
A neural model is described of how the brain may autonomously learn a body-centered representation o...
The neural mechanisms that specify target locations for gaze shifts and then convert these into desi...
J. Douglas Crawford. Contribution of head movement to gaze command coding in monkey frontal cortex a...
Movements which change the direction of the line of sight can be made up of movements of the eyes, h...
Primates have several reflexes that generate eye movements to compensate for bodily movements that w...
Contains fulltext : 64567.pdf (publisher's version ) (Closed access)Eye–hand coord...
A sensorimotor neuron’s receptive field and its frame of reference are easily conflated within the n...
A fundamental question in sensorimotor control concerns the transformation of spatial signals from t...
This chapter reviews current ideas on the neural control of eye and head movements, with special emp...
require a nonlinear, eye orientation–dependent reference frame trans-formation to transform visual c...
AbstractThe supplementary eye field (SEF) is a region within medial frontal cortex that integrates c...
Shifting the line of sight is naturally accomplished by the movements of both eye and head. We are s...
Research conducted over the last decades has established that the medial part of posterior parietal ...
To explore the visible world, humans and other animals rapidly shift their line of sight to potentia...
We used transneuronal retrograde transport and electrical simulation to study the anatomy of the ocu...
A neural model is described of how the brain may autonomously learn a body-centered representation o...