AbstractA veridical percept of ego-motion is normally derived from a combination of visual, vestibular, and proprioceptive signals. A previous study showed that blindfolded subjects can accurately perceive passively travelled straight or curved trajectories provided that the orientation of the head remained constant along the trajectory. When they were turned (whole-body, head-fixed) relative to the trajectory, errors occurred. We ask whether vision allows for better path perception in that situation, to correct or complement vestibular perception. Seated, stationary subjects wore a head mounted display showing optic flow stimuli which simulated linear or curvilinear 2D trajectories over a horizontal ground plane. The observer’s orientation...
When static observers are presented with a visual simulation of forward self-motion, they generally ...
There has long been a debate on which of the following two strategies we adopt while we are steering...
Vestibular models can predict many aspects of self-motion perception. However, it is still not compl...
AbstractA veridical percept of ego-motion is normally derived from a combination of visual, vestibul...
A veridical percept of ego-motion is normally derived from a combination of visual, vestibular, and ...
We recently published a study of the reconstruction of passively travelled trajectories from optic f...
We recently published a study of the reconstruction of passively travelled trajectories from optic f...
It is well established that human observers can detect their heading direction on a very short time ...
AbstractTo study the contribution of vision to the perception of ego-motion, one often dissociates t...
We recently published a study of the reconstruction of passively travelled trajectories from optic f...
AbstractVisual motion, such as radial optic flow, is an important cue for perceiving direction durin...
Visuo-vestibular interaction in the reconstruction of travelled trajectories. R.J.V. Bertin, A. Bert...
AbstractWe present results from computer simulations of a biologically plausible model of heading de...
This research explored two aspects of visually guided walking (1) what is the role of optic flow in ...
How does visual path information influence people's perception of their instantaneous direction of s...
When static observers are presented with a visual simulation of forward self-motion, they generally ...
There has long been a debate on which of the following two strategies we adopt while we are steering...
Vestibular models can predict many aspects of self-motion perception. However, it is still not compl...
AbstractA veridical percept of ego-motion is normally derived from a combination of visual, vestibul...
A veridical percept of ego-motion is normally derived from a combination of visual, vestibular, and ...
We recently published a study of the reconstruction of passively travelled trajectories from optic f...
We recently published a study of the reconstruction of passively travelled trajectories from optic f...
It is well established that human observers can detect their heading direction on a very short time ...
AbstractTo study the contribution of vision to the perception of ego-motion, one often dissociates t...
We recently published a study of the reconstruction of passively travelled trajectories from optic f...
AbstractVisual motion, such as radial optic flow, is an important cue for perceiving direction durin...
Visuo-vestibular interaction in the reconstruction of travelled trajectories. R.J.V. Bertin, A. Bert...
AbstractWe present results from computer simulations of a biologically plausible model of heading de...
This research explored two aspects of visually guided walking (1) what is the role of optic flow in ...
How does visual path information influence people's perception of their instantaneous direction of s...
When static observers are presented with a visual simulation of forward self-motion, they generally ...
There has long been a debate on which of the following two strategies we adopt while we are steering...
Vestibular models can predict many aspects of self-motion perception. However, it is still not compl...