Future challenges for vection research: definitions, functional significance, measures, and neural bases (original) (raw)

Profile image of Mark SchiraMark Schira

2015, Frontiers in Psychology

Critical role of foreground stimuli in perceiving visually induced self-motion (vection

shinji nakamura

Perception, 1999

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Auditory self-motion illusions (circular vection) can be facilitated by vibrations and the potential for actual motion

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The Neural Correlates of Vection - an fMRI study

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Vection during conflicting multisensory information about the axis, magnitude and direction of self-motion

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More than a cool illusion? Functional significance of self-motion illusion (circular vection) for perspective switches

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Biases in the perception of self-motion during whole-body acceleration and deceleration

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Higher-order cognitive processes moderate body tilt effects in vection

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More than a cool illusion? Functional significance of self-motion illusion for perspective switches

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2015

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Influences of the Perception of Self-Motion on Postural Parameters

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Auditory self-motion simulation is facilitated by haptic and vibrational cues suggesting the possibility of actual motion

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Vection can be induced without global motion awareness.

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A slowly moving foreground can capture an observer's self-motion - a report of a new motion illusion: inverted vection

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Simple user-generated motion cueing can enhance self-motion perception (vection) in virtual reality

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Cognitive factors can influence self-motion perception (vection) in virtual reality

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Spatialized Auditory Cues Enhance the Visually-Induced Self-Motion Illusion (Circular Vection) In Virtual Reality

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Mental imagery of visual motion modifies the perception of roll-vection stimulation

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Modulation of vection latencies in the full-body illusion

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