Results 131 to 140 of about 996 (165)
Some of the next articles are maybe not open access.

Podokinetic circular vection: characteristics and interaction with optokinetic circular vection

Experimental Brain Research, 2016
Stabilising horizontal body orientation in space without sight on a rotating platform by holding to a stationary structure and circular 'treadmill' stepping in the opposite direction can elicit an illusion of self-turning in space (Bles and Kapteyn in Agressologie 18:325-328, 1977).
W, Becker   +3 more
openaire   +2 more sources

Vection in Depth during Treadmill Walking [PDF]

open access: yesPerception, 2013
Vection has typically been induced in stationary observers (ie conditions providing visual- only information about self-motion). Two recent studies have examined vection during active treadmill walking—one reported that treadmill walking in the same direction as the visually simulated self-motion impaired vection (Onimaru et al, 2010 Journal of ...
Stephen Palmisano   +2 more
exaly   +4 more sources

Influence of fixation on circular vection

Journal of Vestibular Research, 2000
The contribution of fixation to latency of circular vection (CV) was examined in twenty-five normal adults aged 18–30 years. For induction of self-motion a random dot pattern was projected onto a hemispherical dome. The pattern was rotated either about the subject’s vertical axis or about their interaural axis at a constant acceleration of 1 deg / s 2 .
H, Fushiki, S, Takata, Y, Watanabe
openaire   +2 more sources

Alcohol Consumption Enhances Vection

Perception, 2013
We assessed changes in forward vection following alcohol consumption, and found that alcohol consumption enhanced vection. This result indicates that alcohol can affect psychophysical processes responsible for self-motion perception.
Takeharu, Seno, Shinji, Nakamura
openaire   +2 more sources

Up-down asymmetry in vertical vection

open access: yesVision Research, 2015
To investigate whether up-down asymmetry similar to that reported in vertical optokinetic nystagmus (OKN), that is, larger OKN responses for upward motion than for downward motion, would appear in vertical vection, we conducted three experiments. In all three experiments, participants viewed a vertically moving random-dot pattern.
Yasuhiro Seya
exaly   +3 more sources

Inconsistent Locomotion Inhibits Vection

Perception, 2011
We measured the strength of illusory self-motion perception (vection) with and without locomotion on a treadmill. The results revealed that vection was inhibited by inconsistent locomotion, but facilitated by consistent locomotion.
Takeharu, Seno   +2 more
openaire   +2 more sources

Positional and directional preponderances in vection

Experimental Brain Research, 2008
We examined the biases in vection strength caused by motion direction (temporonasal vs. nasotemporal motion) and position of stimulus presentation (nasal and temporal semi-retinas) to investigate a subcortical contribution to vection. These biases have been identified for optokinetic nystagmus (OKN) and are acknowledged as evidence for a subcortical ...
Takeharu, Seno, Takao, Sato
openaire   +2 more sources

Inhibition of vection by grasping an object

Experimental Brain Research, 2018
The present study investigated whether vection could be modified by an object grasping movement. Twenty-five university students were asked to do one of the following four types of left-hand movements while they were viewing a radial optic flow: (1) grasping the hand-gripper strongly; (2) holding the hand-gripper; (3) clenching fist strongly; and (4 ...
Masaki, Mori, Takeharu, Seno
openaire   +2 more sources

Optokinetic circular vection: a test of visual–vestibular conflict models of vection nascensy

Experimental Brain Research, 2015
The propensity to experience circular vection (the illusory perception of self-turning evoked by a rotating scene, CV) as reflected by its onset latency exhibits considerable interindividual variation. Models of CV nascensy have linked this delay to the time it takes the visual-vestibular conflict to disappear.
R, Jürgens   +3 more
openaire   +2 more sources

"Vection field" for pedestrian traffic control

ACM SIGGRAPH 2011 Emerging Technologies, 2011
Public pathways, in areas such as stations and concert halls, can present pedestrian crowds with difficulties, for example, congestions and collisions (Figure 1-a). Although visual signs and audio cues are commonly used for smoother pedestrian flow, they are often ignored or neglected because they require some time to be understood.
Hiromi Yoshikawa   +4 more
openaire   +1 more source

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