Effects of spatial separation between stimuli in whole report from brief visual displays

Søren Kyllingsbæk; Christian Valla; Jan Vanrie; Claus Mogens Bundesen

Effects of spatial separation between stimuli in whole report from brief visual displays

Søren Kyllingsbæk, Christian Valla, Jan Vanrie, Claus Mogens Bundesen

8 Citations (Scopus)

Abstract

Direct measurements of effects of spatial separation between stimuli in whole report
from brief visual displays are reported. The stimuli were presented on the periphery of
an imaginary circle centered on fixation. In Experiment 1, each display showed 2
capital letters (letter height = 1.3°, width = 0.9°, eccentricity = 5.5°). The proportion
of correctly reported letters was a strictly increasing, decelerating function of the
spatial separation between the letters for center-to-center separations ranging from
less than 2° to more than 10° of visual angle. Experiment 2 yielded similar results
with triples of letters. Experiment 3 showed that accuracy increased with spatial
separation for report of 2 short words, and Experiment 4 showed the same result for
words presented upside-down. The results are explained by a model of lateral masking
(crowding) based on competitive interactions within receptive fields of cortical
neurons.

Original language	English
Journal	Perception and Psychophysics
Volume	69
Issue number	6
Pages (from-to)	1040-1050
Number of pages	11
ISSN	0031-5117
Publication status	Published - 2007

Cite this

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title = "Effects of spatial separation between stimuli in whole report from brief visual displays",

abstract = "Direct measurements of effects of spatial separation between stimuli in whole reportfrom brief visual displays are reported. The stimuli were presented on the periphery ofan imaginary circle centered on fixation. In Experiment 1, each display showed 2capital letters (letter height = 1.3°, width = 0.9°, eccentricity = 5.5°). The proportionof correctly reported letters was a strictly increasing, decelerating function of thespatial separation between the letters for center-to-center separations ranging fromless than 2° to more than 10° of visual angle. Experiment 2 yielded similar resultswith triples of letters. Experiment 3 showed that accuracy increased with spatialseparation for report of 2 short words, and Experiment 4 showed the same result forwords presented upside-down. The results are explained by a model of lateral masking(crowding) based on competitive interactions within receptive fields of corticalneurons.",

author = "S{\o}ren Kyllingsb{\ae}k and Christian Valla and Jan Vanrie and Bundesen, {Claus Mogens}",

year = "2007",

language = "English",

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T1 - Effects of spatial separation between stimuli in whole report from brief visual displays

AU - Kyllingsbæk, Søren

AU - Valla, Christian

AU - Vanrie, Jan

AU - Bundesen, Claus Mogens

PY - 2007

Y1 - 2007

N2 - Direct measurements of effects of spatial separation between stimuli in whole reportfrom brief visual displays are reported. The stimuli were presented on the periphery ofan imaginary circle centered on fixation. In Experiment 1, each display showed 2capital letters (letter height = 1.3°, width = 0.9°, eccentricity = 5.5°). The proportionof correctly reported letters was a strictly increasing, decelerating function of thespatial separation between the letters for center-to-center separations ranging fromless than 2° to more than 10° of visual angle. Experiment 2 yielded similar resultswith triples of letters. Experiment 3 showed that accuracy increased with spatialseparation for report of 2 short words, and Experiment 4 showed the same result forwords presented upside-down. The results are explained by a model of lateral masking(crowding) based on competitive interactions within receptive fields of corticalneurons.

AB - Direct measurements of effects of spatial separation between stimuli in whole reportfrom brief visual displays are reported. The stimuli were presented on the periphery ofan imaginary circle centered on fixation. In Experiment 1, each display showed 2capital letters (letter height = 1.3°, width = 0.9°, eccentricity = 5.5°). The proportionof correctly reported letters was a strictly increasing, decelerating function of thespatial separation between the letters for center-to-center separations ranging fromless than 2° to more than 10° of visual angle. Experiment 2 yielded similar resultswith triples of letters. Experiment 3 showed that accuracy increased with spatialseparation for report of 2 short words, and Experiment 4 showed the same result forwords presented upside-down. The results are explained by a model of lateral masking(crowding) based on competitive interactions within receptive fields of corticalneurons.

M3 - Journal article

SN - 1943-3921

VL - 69

SP - 1040

EP - 1050

JO - Attention, Perception & Psychophysics

JF - Attention, Perception & Psychophysics

IS - 6

ER -

Effects of spatial separation between stimuli in whole report from brief visual displays

Abstract

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