(A) VOR gains across the frequency range (0.2–10 Hz). (B) The phase response of the VOR. (C) Example VOR traces. Dashed lines indicate inverted head velocity. There was a significant increase in the VOR gain mainly over the 5–10 Hz range for Monkey G (p p https://doi.org/10.5281/zenodo.6338639. (TIF)</p
The translational vestibulo-ocular reflex (tVOR) is an otolith-mediated response that stabilizes nea...
(A) Traces of the evoked eye movements for Monkey G during virtual transient head movements (on dire...
The vestibulo-ocular reflex (VOR) serves vision by generating conjugate smooth eye movements that ar...
(A) VOR gains across the frequency range (0.2–10 Hz). (B) The phase response of the VOR. (C) Example...
(A) Example traces of the evoked eye movements during 1, 5, and 10 Hz virtual sinusoidal rotations, ...
(A) VOR gains prior to normalization across natural frequency range (0.2–20 Hz). Note that the figur...
(A) VOR gains prior to normalization across natural frequency range (0.2–20 Hz). Note that the figur...
(A) Traces of the evoked eye movements for Monkey G during transient head movements (off-direction),...
(A) The transfer functions of the additional mappings to explore the high-pass tuning parameter spac...
<p>(A) Data for the position of the turntable during rotation. (B) X component of the rotation vecto...
In this study, we compare VOR response dynamics induced by high-frequency (>5 Hz) passive head-on-bo...
Thirty subjects were exposed to a sinusoidal rotation stimulus of 0.025 cps and a peak velocity of 6...
Contains fulltext : 177664.pdf (Publisher’s version ) (Open Access)The vestibular ...
textabstractThe three-dimensional vestibulo-ocular reflex (3D VOR) ideally generates compensatory oc...
The Vestibular Ocular Reflex (VOR) controls the stability ofgaze in mammals and operates even in dar...
The translational vestibulo-ocular reflex (tVOR) is an otolith-mediated response that stabilizes nea...
(A) Traces of the evoked eye movements for Monkey G during virtual transient head movements (on dire...
The vestibulo-ocular reflex (VOR) serves vision by generating conjugate smooth eye movements that ar...
(A) VOR gains across the frequency range (0.2–10 Hz). (B) The phase response of the VOR. (C) Example...
(A) Example traces of the evoked eye movements during 1, 5, and 10 Hz virtual sinusoidal rotations, ...
(A) VOR gains prior to normalization across natural frequency range (0.2–20 Hz). Note that the figur...
(A) VOR gains prior to normalization across natural frequency range (0.2–20 Hz). Note that the figur...
(A) Traces of the evoked eye movements for Monkey G during transient head movements (off-direction),...
(A) The transfer functions of the additional mappings to explore the high-pass tuning parameter spac...
<p>(A) Data for the position of the turntable during rotation. (B) X component of the rotation vecto...
In this study, we compare VOR response dynamics induced by high-frequency (>5 Hz) passive head-on-bo...
Thirty subjects were exposed to a sinusoidal rotation stimulus of 0.025 cps and a peak velocity of 6...
Contains fulltext : 177664.pdf (Publisher’s version ) (Open Access)The vestibular ...
textabstractThe three-dimensional vestibulo-ocular reflex (3D VOR) ideally generates compensatory oc...
The Vestibular Ocular Reflex (VOR) controls the stability ofgaze in mammals and operates even in dar...
The translational vestibulo-ocular reflex (tVOR) is an otolith-mediated response that stabilizes nea...
(A) Traces of the evoked eye movements for Monkey G during virtual transient head movements (on dire...
The vestibulo-ocular reflex (VOR) serves vision by generating conjugate smooth eye movements that ar...