Antiphase flicker induces depth segregation

Iwabuchi, Akira; Shimizu, Hiroshi

doi:10.3758/bf03214216

Perception & Psychophysics

1997

DOI: 10.3758/bf03214216

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Antiphase flicker induces depth segregation

Akira Iwabuchi¹,

Hiroshi Shimizu

Abstract: Weexamined the influence of the temporal phase of flickering stimuli on perceptual organization, When two regions of a uniform random-dot field are flickered in temporal alternation with the same flicker rate, one of the regions appears to lie in front of the other. Within the range of temporal frequencies used in the present experiments, depth perception was maximal between 5 and 31.3 Hz. Which region of the two is perceived as lying in front is different from person to person and sometimes fluctuates within … Show more

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1998

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Dynamic Binding of Visual Features by Neuronal/Stimulus Synchrony.

Iwabuchi

1998

Appl Human Sci

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Abstract. When people see a visual scene, certain parts of the visual scene are treated as belonging together and we regard them as a perceptual unit, which is called a "figure". People focus on figures, and the remaining parts of the scene are disregarded as "ground". In Gestalt psychology this process is called "figure-ground segregation". According to current perceptual psychology, a figure is formed by binding various visual features in a scene, and developments in neuroscience have revealed that there are many feature-encoding neurons, which respond to such features specifically. It is not known, however, how the brain binds different features of an object into a coherent visual object representation. Recently, the theory of binding by neuronal synchrony, which argues that feature binding is dynamically mediated by neuronal synchrony of feature-encoding neurons, has been proposed. This review article portrays the problem of figure-ground segregation and feature binding, summarizes neurophysiological and psychophysical experiments and theory relevant to feature binding by neuronal/stimulus synchrony, and suggests possible directions for future research on this topic.

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Dynamic Binding of Visual Features by Neuronal/Stimulus Synchrony.

Iwabuchi

1998

Appl Human Sci

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Antiphase flicker induces depth segregation

Cited by 1 publication

References 19 publications

Dynamic Binding of Visual Features by Neuronal/Stimulus Synchrony.

Dynamic Binding of Visual Features by Neuronal/Stimulus Synchrony.

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