The brain integrates sensory input from the otolith organs, the semicircular canals, and the somatosensory and visual systems to determine self-orientation relative to gravity. Only the otoliths directly sense the gravito-inertial force vector and therefore provide the major input for perceiving static head-roll relative to gravity, as measured by the subjective visual vertical (SVV). Intra-individual SVV variability increases with head roll, which suggests that the effectiveness of the otolith signal is roll-angle dependent. We asked whether SVV variability reflects the spatial distribution of the otolithic sensors and the otolith-derived acceleration estimate. Subjects were placed in different roll orientations (0 to 360 degrees , 15 degr...
The perception of gravitational vertical is determined by estimates from visual, vestibular and prop...
Item does not contain fulltextTo assess the effects of degrading canal cues for dynamic spatial orie...
Contains fulltext : 51167.pdf (publisher's version ) (Open Access)This thesis desc...
Accurate and precise estimates of direction of gravity are essential for spatial orientation. Accord...
The aim of this study was to characterize the error pattern of continuously tracking the perceived e...
Inferring object orientation in the surroundings heavily depends on our internal sense of direction ...
Inferring object orientation in the surroundings heavily depends on our internal sense of direction ...
We compared the variability of the subjective visual vertical (SVV) and static ocular counterroll (O...
We tested the hypothesis that the brain uses a variance-based weighting of multisensory cues to esti...
Body position relative to gravity is continuously updated to prevent falls. Therefore, the brain int...
Objective: To review current knowledge of the perception of verticality, its normal function and dis...
We tested the hypothesis that the brain uses a variance-based weighting of multisensory cues to esti...
The brain constructs an internal estimate of the gravitational vertical by integrating multiple sens...
Abstract: The aim of the present study was to investigate (1) the relative contribution of the eg...
The otoliths are vestibular organs that act as gravito-inertial force sensors and contribute to the ...
The perception of gravitational vertical is determined by estimates from visual, vestibular and prop...
Item does not contain fulltextTo assess the effects of degrading canal cues for dynamic spatial orie...
Contains fulltext : 51167.pdf (publisher's version ) (Open Access)This thesis desc...
Accurate and precise estimates of direction of gravity are essential for spatial orientation. Accord...
The aim of this study was to characterize the error pattern of continuously tracking the perceived e...
Inferring object orientation in the surroundings heavily depends on our internal sense of direction ...
Inferring object orientation in the surroundings heavily depends on our internal sense of direction ...
We compared the variability of the subjective visual vertical (SVV) and static ocular counterroll (O...
We tested the hypothesis that the brain uses a variance-based weighting of multisensory cues to esti...
Body position relative to gravity is continuously updated to prevent falls. Therefore, the brain int...
Objective: To review current knowledge of the perception of verticality, its normal function and dis...
We tested the hypothesis that the brain uses a variance-based weighting of multisensory cues to esti...
The brain constructs an internal estimate of the gravitational vertical by integrating multiple sens...
Abstract: The aim of the present study was to investigate (1) the relative contribution of the eg...
The otoliths are vestibular organs that act as gravito-inertial force sensors and contribute to the ...
The perception of gravitational vertical is determined by estimates from visual, vestibular and prop...
Item does not contain fulltextTo assess the effects of degrading canal cues for dynamic spatial orie...
Contains fulltext : 51167.pdf (publisher's version ) (Open Access)This thesis desc...