Add to ORKGA neural model is described of how the brain may autonomously learn a body-centered representation of 3-D target position by combining information about retinal target position, eye position, and head position in real time. Such a body-centered spatial representation enables accurate movement commands to the limbs to be generated despite changes in the spatial relationships between the eyes, head, body, and limbs through time. The model learns a vector representation--otherwise known as a parcellated distributed representation--of target vergence with respect to the two eyes, and of the horizontal and vertical spherical angles of the target with respect to a cyclopean egocenter. Such a vergence-spherical representation has been reported in ...
This paper describes a self-organizing neural model for eye-hand coordination. Called the DIRECT mod...
This chapter reviews current ideas on the neural control of eye and head movements, with special emp...
Neurons have been found in various areas of the primate brain that respond to the location of object...
A neural network model is described for how an invariant head-centered representation of 3-D target ...
This article describes how corollary discharges from outflow eye movement commands can be transforme...
This paper describes a self-organizing neural network that rapidly learns a body-centered representa...
Shifting the line of sight is naturally accomplished by the movements of both eye and head. We are s...
Thesis (Ph.D.)--Boston University, 2012PLEASE NOTE: Boston University Libraries did not receive an A...
The human visual system uses saccadic and vergence eye movements to foveate visual targets. To mimic...
We present a neural model that can perform eye movements to a particular side of an object regardles...
The ability of a real robot system to interact with the surrounding environment is subordinate to it...
The neural mechanisms that specify target locations for gaze shifts and then convert these into desi...
International audienceA neural network model for a sensorimotor system, which was developed to simul...
How does the saccadic movement system select a target when visual, auditory, and planned movement co...
Moving eyes and head to orient the visual axis to a point of interest is a routine movement for fove...
This paper describes a self-organizing neural model for eye-hand coordination. Called the DIRECT mod...
This chapter reviews current ideas on the neural control of eye and head movements, with special emp...
Neurons have been found in various areas of the primate brain that respond to the location of object...
A neural network model is described for how an invariant head-centered representation of 3-D target ...
This article describes how corollary discharges from outflow eye movement commands can be transforme...
This paper describes a self-organizing neural network that rapidly learns a body-centered representa...
Shifting the line of sight is naturally accomplished by the movements of both eye and head. We are s...
Thesis (Ph.D.)--Boston University, 2012PLEASE NOTE: Boston University Libraries did not receive an A...
The human visual system uses saccadic and vergence eye movements to foveate visual targets. To mimic...
We present a neural model that can perform eye movements to a particular side of an object regardles...
The ability of a real robot system to interact with the surrounding environment is subordinate to it...
The neural mechanisms that specify target locations for gaze shifts and then convert these into desi...
International audienceA neural network model for a sensorimotor system, which was developed to simul...
How does the saccadic movement system select a target when visual, auditory, and planned movement co...
Moving eyes and head to orient the visual axis to a point of interest is a routine movement for fove...
This paper describes a self-organizing neural model for eye-hand coordination. Called the DIRECT mod...
This chapter reviews current ideas on the neural control of eye and head movements, with special emp...
Neurons have been found in various areas of the primate brain that respond to the location of object...