Directional asymmetries and age effects in human self-motion perception.
about
Comparison of linear motion perception thresholds in vestibular migraine and Menière's disease.Integration of Semi-Circular Canal and Otolith Cues for Direction Discrimination during Eccentric RotationsHuman visual and vestibular heading perception in the vertical planesHuman sensitivity to vertical self-motion.Limited interaction between translation and visual motion aftereffects in humans.Vestibular labyrinth contributions to human whole-body motion discrimination.Direction specific biases in human visual and vestibular heading perceptionModeling direction discrimination thresholds for yaw rotations around an earth-vertical axis for arbitrary motion profiles.Visual and vestibular perceptual thresholds each demonstrate better precision at specific frequencies and also exhibit optimal integrationSelf-motion perception in the elderlyVestibular perception and the vestibulo-ocular reflex in young and older adults.The importance of stimulus noise analysis for self-motion studies.Coordinates of Human Visual and Inertial Heading Perception.Human Vection Perception Using Inertial Nulling and Certainty Estimation: The Effect of Migraine History.Vestibular implantation and longitudinal electrical stimulation of the semicircular canal afferents in human subjects.Influence of Visual Motion, Suggestion, and Illusory Motion on Self-Motion Perception in the Horizontal Plane.Suprathreshold asymmetries in human motion perception.Accumulation of Inertial Sensory Information in the Perception of Whole Body Yaw Rotation.Human discrimination of head-centred visual-inertial yaw rotationsFore-aft translation aftereffects.Roll aftereffects: influence of tilt and inter-stimulus intervalAbsence of Rotation Perception during Warm Water Caloric Irrigation in Some Seniors with Postural InstabilitySignal detection theory and vestibular perception: III. Estimating unbiased fit parameters for psychometric functionsDetermining thresholds using adaptive procedures and psychometric fits: evaluating efficiency using theory, simulations, and human experimentsAging of the Human Vestibular SystemCerebellar contributions to self-motion perception: evidence from patients with congenital cerebellar agenesisClinical testing of otolith function: perceptual thresholds and myogenic potentials.Vestibular Perceptual Thresholds Increase above the Age of 40The influence of head and body tilt on human fore-aft translation perception.Whole body motion-detection tasks can yield much lower thresholds than direction-recognition tasks: implications for the role of vibrationHuman yaw rotation aftereffects with brief duration rotations are inconsistent with velocity storage.Roll vection in migraine and controls using inertial nulling and certainty estimate techniques.Perception of combined translation and rotation in the horizontal plane in humans.Multivariate Analyses of Balance Test Performance, Vestibular Thresholds, and Age.Direction detection thresholds of passive self-motion in artistic gymnasts.The Aging Navigational System.Effect of eye position during human visual-vestibular integration of heading perception.When uncertain, does human self-motion decision-making fully utilize complete information?Effect of vibration during visual-inertial integration on human heading perception during eccentric gaze.
P2860
Q30374302-FDE436FB-9197-496E-8BDC-2CE3FDC100AAQ30403220-386E04B1-FFBD-40AE-961B-1FB808C9483AQ30419793-217CF36A-9CB5-4302-AC3E-EC4996B694C0Q30443922-F3D3EF51-0862-4B36-A07F-12D64CF19828Q30445053-74B374A5-7AB6-468D-AD20-6774E1B25D32Q30456060-A218D7C3-4DBA-4613-8187-E176C15BCC09Q30459942-DDF3DEF5-ECA7-4308-BF4C-9DC6594CA216Q30466542-5A3117F2-7586-401A-859D-DEB875994152Q33708215-E469F711-0DC7-48F0-B4E4-9560D24D5552Q34180535-2886665F-E7B2-4189-B970-3B609DDE362FQ34232402-0C06B5B2-3220-41C3-8285-F3CA27EEF765Q35155150-9463146F-D839-4FD9-A69B-4CA1A4589351Q35744189-5FF4AEBE-E7C9-4E82-B16A-867426D26F18Q35747634-E3C3E4B2-7FDF-4677-9AAD-601473EBBE8CQ35781127-13A5852D-998E-4694-B25D-9577FA24CE12Q35832003-F2F58EC4-315C-40BA-A105-5B44111F52DCQ36002375-50320D24-19B5-4895-937B-8982A307E613Q36261324-56E33BDE-8C77-48B7-A60C-3248D7844472Q36285107-270EA8B8-3835-4F39-B2C4-7FE852948462Q36293985-12E361E3-2D16-41AA-826B-B6C50A0A5790Q36319968-04BEF8DC-1983-45D5-897E-B0FE11022233Q36497107-ED3291B3-50EC-42B9-BC0D-72302166D37FQ36605252-B0B5FA09-A6D8-4D31-AE26-52DE6190D10BQ36797029-013236C2-9670-4B94-A823-B17584B60F23Q37000416-F281FAF0-0A1F-4C2B-8F93-33103D358AE0Q37041585-7052D201-11EF-41EB-B6FE-10DB5C422497Q37300681-C0C56958-7698-445F-93EE-48A1F2F73992Q37304084-933ED0AC-F5EA-4930-99D4-A093A89D9F2AQ37387950-472A44AA-73E4-4AC6-9F10-758AFDBDC90FQ37441411-E4DA799F-B61B-4AF2-955A-8563295D5663Q37623988-AB4444B2-CABB-46CE-9DB1-92E0B9FDE64BQ37638841-72D4F8F0-B742-4B84-9055-7E287331F47AQ41093249-DA0AAADD-ACBB-4796-A66B-97AF3EAAAB51Q45227956-38ACBC6A-3C1E-4157-A7D7-7E124DE20DFBQ46685483-A78B4BCA-5AA0-4296-BD85-15200B8A4F7EQ48132574-A4E0BDF2-E93D-45EE-87D0-2C4F3A342255Q48276547-1FD86D42-2F7C-49B2-A20F-6BB4769025B4Q52708913-E4B19770-6601-4A3C-BF8F-8DE5C8288A24Q55368183-E450103A-3BAE-4C91-BA8A-8346BA43493F
P2860
Directional asymmetries and age effects in human self-motion perception.
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
2012年论文
@zh
2012年论文
@zh-cn
name
Directional asymmetries and age effects in human self-motion perception.
@ast
Directional asymmetries and age effects in human self-motion perception.
@en
type
label
Directional asymmetries and age effects in human self-motion perception.
@ast
Directional asymmetries and age effects in human self-motion perception.
@en
prefLabel
Directional asymmetries and age effects in human self-motion perception.
@ast
Directional asymmetries and age effects in human self-motion perception.
@en
P2860
P1433
P1476
Directional asymmetries and age effects in human self-motion perception.
@en
P2093
Benjamin T Crane
Rachel E Roditi
P2860
P2888
P304
P356
10.1007/S10162-012-0318-3
P577
2012-03-09T00:00:00Z