Human spatial orientation relies on vision, somatosensory cues and signals from the semicircular canals and the otoliths. The canals measure rotation, while the otoliths are linear accelerometers, sensitive to tilt and translation. To disambiguate the otolith signal, two main hypotheses have been proposed: frequency segregation and canal-otolith interaction. So far these models were based mainly on oculomotor behavior. In this study we investigated their applicability to human self-motion perception. Six subjects were rotated in yaw about an off-vertical axis (OVAR) at various speeds and tilt angles, in darkness. During the rotation, subjects indicated at regular intervals whether a briefly presented dot moved faster or slower than their pe...
Reaction times (RTs) to purely inertial self-motion stimuli have only infrequently been studied, and...
To assess the effects of degrading canal cues for dynamic spatial orientation in human observers, we...
To assess the effects of degrading canal cues for dynamic spatial orientation in human observers, we...
Human spatial orientation relies on vision, somatosensory cues, and signals from the semicircular ca...
Contains fulltext : 55951.pdf (publisher's version ) (Closed access)During prolong...
Contains fulltext : 36683.pdf (publisher's version ) (Closed access)During prolong...
Contains fulltext : 36032.pdf (publisher's version ) (Closed access)Using vestibul...
International audienceThe effect of stimulus frequency on tilt and translation motion perception was...
Human off-vertical axis rotation (OVAR) in the dark typically produces perceived motion about a cone...
Few studies have investigated the perception of vestibular stimuli when they occur in sequences. Her...
Humans are capable of moving about the world in complex ways. Every time we move, our self-motion mu...
Humans are capable of moving about the world in complex ways. Every time we move, our self-motion mu...
During eccentric yaw rotations around an Earth-vertical axis the semi-circular canals are stimulated...
This thesis describes the results of a research project to investigate vestibular aspects of visual ...
On the basis of models of otolith functioning, one would expect that, during sinusoidal linear self-...
Reaction times (RTs) to purely inertial self-motion stimuli have only infrequently been studied, and...
To assess the effects of degrading canal cues for dynamic spatial orientation in human observers, we...
To assess the effects of degrading canal cues for dynamic spatial orientation in human observers, we...
Human spatial orientation relies on vision, somatosensory cues, and signals from the semicircular ca...
Contains fulltext : 55951.pdf (publisher's version ) (Closed access)During prolong...
Contains fulltext : 36683.pdf (publisher's version ) (Closed access)During prolong...
Contains fulltext : 36032.pdf (publisher's version ) (Closed access)Using vestibul...
International audienceThe effect of stimulus frequency on tilt and translation motion perception was...
Human off-vertical axis rotation (OVAR) in the dark typically produces perceived motion about a cone...
Few studies have investigated the perception of vestibular stimuli when they occur in sequences. Her...
Humans are capable of moving about the world in complex ways. Every time we move, our self-motion mu...
Humans are capable of moving about the world in complex ways. Every time we move, our self-motion mu...
During eccentric yaw rotations around an Earth-vertical axis the semi-circular canals are stimulated...
This thesis describes the results of a research project to investigate vestibular aspects of visual ...
On the basis of models of otolith functioning, one would expect that, during sinusoidal linear self-...
Reaction times (RTs) to purely inertial self-motion stimuli have only infrequently been studied, and...
To assess the effects of degrading canal cues for dynamic spatial orientation in human observers, we...
To assess the effects of degrading canal cues for dynamic spatial orientation in human observers, we...