RT Dyde, LR Harris - Journal of Vision, 2008 - jov.arvojournals.org
Eye, head, and body movement are intimately linked. During self-motion, the eyes track objects by a combination of vestibular reflexes and smooth pursuit eye movements but …
It has been unclear whether the perception of depth from motion parallax is an entirely visual process or whether it requires extra-retinal information such as head movements, vestibular …
J Skinner, A Buonocore… - Journal of …, 2019 - journals.physiology.org
Two main types of small eye movements occur during gaze fixation: microsaccades and slow ocular drifts. While microsaccade generation has been relatively well studied, ocular …
Humans are able to distinguish eye movement-induced retinal image motion and physical object motion during smooth pursuit eye movements. We investigated the …
T Ledgeway, RF Hess - Vision research, 2002 - Elsevier
We sought to investigate why the direction of second-order motion, unlike first-order motion, cannot be identified when the stimulus exposure duration is brief (< 200 ms). In a series of …
L Li, WH Warren Jr - Vision research, 2000 - Elsevier
How do observers perceive the path of self-motion during rotation? Previous research suggests that extra-retinal information about eye movements is necessary at high rotation …
Current “spatio-temporal energy” models of how we perceive pattern motion have been very successful in helping us to understand the mechanisms of motion perception. Although they …
KA Turano, RW Massof - Vision Research, 2001 - Elsevier
The aim of this study was to test the hypothesis that an extra-retinal signal combines with retinal velocity in a linear manner as described by existing models to determine perceived …
In the motion aftereffect (MAE), adapting to a moving stimulus causes a subsequently presented stationary stimulus to appear to move in the opposite direction. Recently, the …