<p>Simulated movements of the eyes and head-centered locations of visual targets during training and testing. (<b>A</b>) Scatter plot in which each point corresponds to a single fixation during either training (red) or testing (blue). The fixation points are plotted as a function of the eye position (abscissa) and the retinal location of the visual target (ordinate). Each of the diagonal lines of red points corresponds to a period during training when the visual target was fixed in one of the eight head-centered target locations while the eyes moved. The vertical lines of blue points correspond to the four eye positions in which the network was tested. (<b>B</b>) Multiple plots showing how the eye position is shifted through time in a rando...
<p>A. Distribution of position SI for 3-position task. B. Distribution of position SI for 8-position...
<p>(A) Illustration of the checkerboard pattern that moved sinusoidally either in the anterior-poste...
<p>The top two rows show the binarised activation of 4 example output neurons before training. A red...
<p>Simulations exploring the effects of varying the number, , of eye fixation positions for each fix...
<p>The top row displays the relative arrangements between the target object and the hand (for all si...
<p>A. Time course of responses at best (red) and worst (blue) eye positions. Gray period indicates t...
The scatter plot shows the eye-centredness and head-centredness values of all output neurons from fo...
<p>The abscissa represents the three training groups (reading, saccade or healthy control). The ordi...
We passively recorded eye movements from our in-lab subjects using an Eyelink 1000 Plus (monocular; ...
<p>(A) Horizontal position of the dominant eye, relative to the ‘position relative to the gaze posit...
<p>The development of the firing responses and synaptic weights of output neuron #79 before and afte...
<p>(<b>a</b>) Schematic view of a trial progression during the eye-gaze contingent paradigm used in ...
<p>(A) Pattern of fixations/saccades revealed in relation to the “cannon” stimulus (left) and its un...
The scatter plot shows the reference frame response characteristics of all output neurons before and...
<p>(A) Stimulus timing and display. Participants prepared a saccade from the fixation target to 1 of...
<p>A. Distribution of position SI for 3-position task. B. Distribution of position SI for 8-position...
<p>(A) Illustration of the checkerboard pattern that moved sinusoidally either in the anterior-poste...
<p>The top two rows show the binarised activation of 4 example output neurons before training. A red...
<p>Simulations exploring the effects of varying the number, , of eye fixation positions for each fix...
<p>The top row displays the relative arrangements between the target object and the hand (for all si...
<p>A. Time course of responses at best (red) and worst (blue) eye positions. Gray period indicates t...
The scatter plot shows the eye-centredness and head-centredness values of all output neurons from fo...
<p>The abscissa represents the three training groups (reading, saccade or healthy control). The ordi...
We passively recorded eye movements from our in-lab subjects using an Eyelink 1000 Plus (monocular; ...
<p>(A) Horizontal position of the dominant eye, relative to the ‘position relative to the gaze posit...
<p>The development of the firing responses and synaptic weights of output neuron #79 before and afte...
<p>(<b>a</b>) Schematic view of a trial progression during the eye-gaze contingent paradigm used in ...
<p>(A) Pattern of fixations/saccades revealed in relation to the “cannon” stimulus (left) and its un...
The scatter plot shows the reference frame response characteristics of all output neurons before and...
<p>(A) Stimulus timing and display. Participants prepared a saccade from the fixation target to 1 of...
<p>A. Distribution of position SI for 3-position task. B. Distribution of position SI for 8-position...
<p>(A) Illustration of the checkerboard pattern that moved sinusoidally either in the anterior-poste...
<p>The top two rows show the binarised activation of 4 example output neurons before training. A red...