When in darkness, humans can perceive the direction and magnitude of rotations and of linear translations in the horizontal plane. The current paper addresses the integrated perception of combined translational and rotational motion, as it occurs when moving along a curved trajectory. We questioned whether the perceived motion through the environment follows the predictions of a self-motion perception model (e.g., Merfeld et al. in J Vestib Res 3:141–161, 1993; Newman in A multisensory observer model for human spatial orientation perception, 2009), which assume linear addition of rotational and translational components. For curved motion in darkness, such models predict a non-veridical motion percept, consisting of an underestimation of the...
Human spatial orientation relies on vision, somatosensory cues, and signals from the semicircular ca...
Human spatial orientation relies on vision, somatosensory cues and signals from the semicircular can...
<p>When human subjects fixate on optic flow displays wherein an observer moves along a straight path...
When in darkness, humans can perceive the direction and magnitude of rotations and of linear transla...
Vestibular models can predict many aspects of self-motion perception. However, it is still not compl...
Open Access JournalPrevious studies have found that observers can reliably judge their future trajec...
How does visual path information influence people's perception of their instantaneous direction of s...
When traveling on a straight path with eye rotation, how do observers perceive the path of self-moti...
AbstractHow do observers perceive their direction of self-motion when traveling on a straight path w...
How do observers perceive their direction of self-motion when traveling on a straight path while the...
In many natural situations like driving a car, path curvature is accompanied by observer rotation. T...
In many natural situations like driving a car, path curvature is accompanied by observer rotation. T...
Human observers can perceive self-motion from optic flow for both circular paths and straight paths....
AbstractA veridical percept of ego-motion is normally derived from a combination of visual, vestibul...
AbstractThe percept of self-motion through the environment is supported by visual motion signals and...
Human spatial orientation relies on vision, somatosensory cues, and signals from the semicircular ca...
Human spatial orientation relies on vision, somatosensory cues and signals from the semicircular can...
<p>When human subjects fixate on optic flow displays wherein an observer moves along a straight path...
When in darkness, humans can perceive the direction and magnitude of rotations and of linear transla...
Vestibular models can predict many aspects of self-motion perception. However, it is still not compl...
Open Access JournalPrevious studies have found that observers can reliably judge their future trajec...
How does visual path information influence people's perception of their instantaneous direction of s...
When traveling on a straight path with eye rotation, how do observers perceive the path of self-moti...
AbstractHow do observers perceive their direction of self-motion when traveling on a straight path w...
How do observers perceive their direction of self-motion when traveling on a straight path while the...
In many natural situations like driving a car, path curvature is accompanied by observer rotation. T...
In many natural situations like driving a car, path curvature is accompanied by observer rotation. T...
Human observers can perceive self-motion from optic flow for both circular paths and straight paths....
AbstractA veridical percept of ego-motion is normally derived from a combination of visual, vestibul...
AbstractThe percept of self-motion through the environment is supported by visual motion signals and...
Human spatial orientation relies on vision, somatosensory cues, and signals from the semicircular ca...
Human spatial orientation relies on vision, somatosensory cues and signals from the semicircular can...
<p>When human subjects fixate on optic flow displays wherein an observer moves along a straight path...