Abstract. The goal of this study was to train an artificial neural network to generate accurate saccades in Listing’s plane and then determine how the hidden units performed the visuomotor transformation. A three-layer neural network was successfully trained, using back-prop, to take in oculocentric retinal error vectors and three-dimensional eye orientation and to generate the correct head-centric motor error vector within Listing’s plane. Analysis of the hidden layer of trained networks showed that explicit representations of desired target direction and eye orientation were not employed. Instead, the hidden-layer units consistently divided themselves into four parallel modules: a dominant “vector-propagation ” class (»50 % of units) with...
How does the saccadic movement system select a target when visual, auditory, and planned movement co...
A neural model is described of how the brain may autonomously learn a body-centered representation o...
The human visual system uses saccadic and vergence eye movements to foveate visual targets. To mimic...
formations required for accurate and kinematically correct sac-cades. J. Neurophysiol. 78: 1447–1467...
AbstractThis paper describes a neural network model that directs saccades back to targets after they...
This paper describes a self-organizing neural network that rapidly learns a body-centered representa...
require a nonlinear, eye orientation–dependent reference frame trans-formation to transform visual c...
A neural network model is described for how an invariant head-centered representation of 3-D target ...
Martinetz T, Ritter H, Schulten K. Three-dimensional Neural Net for Learning Visuomotor-Coordination...
Multiple brain learning sites are needed to calibrate the accuracy of saccadic eye movements. This i...
AbstractMultiple brain learning sites are needed to calibrate the accuracy of saccadic eye movements...
This study develops and tests a mathematical model for the neural circuits controlling saccades, the...
Abstract. We present a biologically inspired neural network model of visual orienting (using saccadi...
The visual system converts location information from retinal to several other more relevant coordina...
Sensory signals of different modalities must be translated into a common coordinate framework in ord...
How does the saccadic movement system select a target when visual, auditory, and planned movement co...
A neural model is described of how the brain may autonomously learn a body-centered representation o...
The human visual system uses saccadic and vergence eye movements to foveate visual targets. To mimic...
formations required for accurate and kinematically correct sac-cades. J. Neurophysiol. 78: 1447–1467...
AbstractThis paper describes a neural network model that directs saccades back to targets after they...
This paper describes a self-organizing neural network that rapidly learns a body-centered representa...
require a nonlinear, eye orientation–dependent reference frame trans-formation to transform visual c...
A neural network model is described for how an invariant head-centered representation of 3-D target ...
Martinetz T, Ritter H, Schulten K. Three-dimensional Neural Net for Learning Visuomotor-Coordination...
Multiple brain learning sites are needed to calibrate the accuracy of saccadic eye movements. This i...
AbstractMultiple brain learning sites are needed to calibrate the accuracy of saccadic eye movements...
This study develops and tests a mathematical model for the neural circuits controlling saccades, the...
Abstract. We present a biologically inspired neural network model of visual orienting (using saccadi...
The visual system converts location information from retinal to several other more relevant coordina...
Sensory signals of different modalities must be translated into a common coordinate framework in ord...
How does the saccadic movement system select a target when visual, auditory, and planned movement co...
A neural model is described of how the brain may autonomously learn a body-centered representation o...
The human visual system uses saccadic and vergence eye movements to foveate visual targets. To mimic...