<p>Stimulus input activity (left column) and motor plan formation DNF activity (middle column) for the eye (top row) and hand (bottom row) networks. The model incorrectly performed a saccade in response to the reach cue (right column).</p
The figure shows the firing rate responses of output neuron #223 before training (A) and after train...
<p>In JUMP condition (left), after an unpredictable foreperiod of stable fixation (1200–1600 ms; eye...
<p>A, An example stimulus with two green saccade targets and a red cue that indicates which curve is...
<p>Each trial started with either a single black target or two gray potential targets presented simu...
<p>Neuronal activity of the DNFs that plan saccade (upper row) and reaching (bottom row) movements d...
<p><b>A</b>: Time course of the average activity (20 trials) of the two populations of neurons tuned...
<p>Plots A-D show the connection weights from neurons representing each cue (i.e., red and green) to...
<p>Proprioception (first row), vision (second row), sparsely encoded RNN ...
<p><b><i>A</i></b>, Structure of the task, all possible trials have been illustrated. Fixation mark ...
<p>a: <i>Pre-onset saccade</i> condition. Participants foveate a target (displayed for 1sec; panel i...
(A) Top: Schematic of navigation task. After conditioning, the simulated organism uses odor concentr...
(A) To perform a reaching movement the brain creates a motor program and sends it as an input to the...
<p>A: Example of the motion stimulus used in this study. The arrows indicating motion direction in t...
The scatter plot shows the reference frame response characteristics of all output neurons before and...
<p>Eye traces, raster plots and PSTHs obtained during different conditions in two example recordings...
The figure shows the firing rate responses of output neuron #223 before training (A) and after train...
<p>In JUMP condition (left), after an unpredictable foreperiod of stable fixation (1200–1600 ms; eye...
<p>A, An example stimulus with two green saccade targets and a red cue that indicates which curve is...
<p>Each trial started with either a single black target or two gray potential targets presented simu...
<p>Neuronal activity of the DNFs that plan saccade (upper row) and reaching (bottom row) movements d...
<p><b>A</b>: Time course of the average activity (20 trials) of the two populations of neurons tuned...
<p>Plots A-D show the connection weights from neurons representing each cue (i.e., red and green) to...
<p>Proprioception (first row), vision (second row), sparsely encoded RNN ...
<p><b><i>A</i></b>, Structure of the task, all possible trials have been illustrated. Fixation mark ...
<p>a: <i>Pre-onset saccade</i> condition. Participants foveate a target (displayed for 1sec; panel i...
(A) Top: Schematic of navigation task. After conditioning, the simulated organism uses odor concentr...
(A) To perform a reaching movement the brain creates a motor program and sends it as an input to the...
<p>A: Example of the motion stimulus used in this study. The arrows indicating motion direction in t...
The scatter plot shows the reference frame response characteristics of all output neurons before and...
<p>Eye traces, raster plots and PSTHs obtained during different conditions in two example recordings...
The figure shows the firing rate responses of output neuron #223 before training (A) and after train...
<p>In JUMP condition (left), after an unpredictable foreperiod of stable fixation (1200–1600 ms; eye...
<p>A, An example stimulus with two green saccade targets and a red cue that indicates which curve is...
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