<p>Ratios of best fit gain parameters obtained with constrained velocity-storage time constant (<b><i>τ<sub>VSM</sub></i></b>). Values are means ± 1SD. <i>R<sub>vor</sub></i> and <i>R<sub>perc</sub></i>: ratio of indirect pathway gain to direct pathway gain estimated for slow-phase eye velocity and perceived rotational velocity, respectively.</p
Fitted fast (blue) and slow (black) processes to overall adaptation (green when gain-down and red wh...
1. Do slow phase eye velocities generated by the vestibuloocu-lar reflex (VOR) depend on eye positio...
(A) Example traces of the evoked eye movements during 1, 5, and 10 Hz virtual sinusoidal rotations, ...
<p>Best fit parameters of simulated slow-phase eye velocity and perceived rotational velocity curves...
<p>Average tilts (± SD) of rotation planes of experimental angular eye velocity, obtained from sinus...
a) The speed-accuracy curve produced when including trial-to-trial oculomotor response threshold var...
<p>The original MSTd velocity tuning data and the fitting function from Inaba et al. (2011) are show...
<p>The top panel shows the linear head velocity profile of one of our experimental trials, which was...
<p>All plots show the average velocity profile across all 8 trials. Every point represents the mean ...
textabstractTo characterize vestibulo-ocular reflex (VOR) properties in the time window i...
<p>Representative relative velocity profiles during the reach-to-grasp phase.</p
The perceived speed of moving images changes over time. Prolonged viewing of a pattern (adaptation) ...
<p>Comparison of mean slow-phase velocity in head roll test between transient and persistent geotrop...
<p><i>A</i>-<i>B</i>, Latency of evoked eye or head movements using a 2 standard deviation (A) or sl...
To characterize vestibulo-ocular reflex (VOR) properties in the time window in which contributions b...
Fitted fast (blue) and slow (black) processes to overall adaptation (green when gain-down and red wh...
1. Do slow phase eye velocities generated by the vestibuloocu-lar reflex (VOR) depend on eye positio...
(A) Example traces of the evoked eye movements during 1, 5, and 10 Hz virtual sinusoidal rotations, ...
<p>Best fit parameters of simulated slow-phase eye velocity and perceived rotational velocity curves...
<p>Average tilts (± SD) of rotation planes of experimental angular eye velocity, obtained from sinus...
a) The speed-accuracy curve produced when including trial-to-trial oculomotor response threshold var...
<p>The original MSTd velocity tuning data and the fitting function from Inaba et al. (2011) are show...
<p>The top panel shows the linear head velocity profile of one of our experimental trials, which was...
<p>All plots show the average velocity profile across all 8 trials. Every point represents the mean ...
textabstractTo characterize vestibulo-ocular reflex (VOR) properties in the time window i...
<p>Representative relative velocity profiles during the reach-to-grasp phase.</p
The perceived speed of moving images changes over time. Prolonged viewing of a pattern (adaptation) ...
<p>Comparison of mean slow-phase velocity in head roll test between transient and persistent geotrop...
<p><i>A</i>-<i>B</i>, Latency of evoked eye or head movements using a 2 standard deviation (A) or sl...
To characterize vestibulo-ocular reflex (VOR) properties in the time window in which contributions b...
Fitted fast (blue) and slow (black) processes to overall adaptation (green when gain-down and red wh...
1. Do slow phase eye velocities generated by the vestibuloocu-lar reflex (VOR) depend on eye positio...
(A) Example traces of the evoked eye movements during 1, 5, and 10 Hz virtual sinusoidal rotations, ...