Stereoscopic depth aftereffects without retinal position correspondence between adaptation and test stimuli
Stereoscopic depth aftereffects without retinal position correspondence between adaptation and test stimuli
To clarify whether stereo-slant aftereffects are independent of stimulated retinal position, two experiments compared the magnitude of aftereffects between the following two conditions: when the adaptation and test stimulus fell on (1) the same retinal position, and (2) on different retinal positions separated by 0.5°–20°. In Experiment 1, disc- or ring-shaped surface consisting of random-dots was presented at the central or peripheral visual fields. In Experiment 2, rectangular surface was presented at the upper or lower visual fields. After two minutes inspection of a random-dot stereogram depicting a ±30° slanted surface, the observer adjusted the slant of the test stimulus to appear fronto-parallel. The results of the experiments showed that significant aftereffects were observed similarly in both conditions. Moreover, the separation nor the stimulus shape scarcely affected the magnitude of the aftereffects. Based on these results we concluded that the depth processing mechanism which operates independently from the stimulated retinal position is responsible for the depth aftereffects we found.
1857-1866
Taya, Shuichiro
0eb91dce-c4c2-41ec-b643-0df816878a21
Sato, Masahiro
9de3c8a2-8d3e-422a-be00-7ad40bf7ce0f
Nakamizo, Sachio
d3a4f497-ab4f-4e54-a132-b12b619ea978
June 2005
Taya, Shuichiro
0eb91dce-c4c2-41ec-b643-0df816878a21
Sato, Masahiro
9de3c8a2-8d3e-422a-be00-7ad40bf7ce0f
Nakamizo, Sachio
d3a4f497-ab4f-4e54-a132-b12b619ea978
Taya, Shuichiro, Sato, Masahiro and Nakamizo, Sachio
(2005)
Stereoscopic depth aftereffects without retinal position correspondence between adaptation and test stimuli.
Vision Research, 45 (14), .
(doi:10.1016/j.visres.2005.01.018).
Abstract
To clarify whether stereo-slant aftereffects are independent of stimulated retinal position, two experiments compared the magnitude of aftereffects between the following two conditions: when the adaptation and test stimulus fell on (1) the same retinal position, and (2) on different retinal positions separated by 0.5°–20°. In Experiment 1, disc- or ring-shaped surface consisting of random-dots was presented at the central or peripheral visual fields. In Experiment 2, rectangular surface was presented at the upper or lower visual fields. After two minutes inspection of a random-dot stereogram depicting a ±30° slanted surface, the observer adjusted the slant of the test stimulus to appear fronto-parallel. The results of the experiments showed that significant aftereffects were observed similarly in both conditions. Moreover, the separation nor the stimulus shape scarcely affected the magnitude of the aftereffects. Based on these results we concluded that the depth processing mechanism which operates independently from the stimulated retinal position is responsible for the depth aftereffects we found.
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Published date: June 2005
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Local EPrints ID: 50086
URI: http://eprints.soton.ac.uk/id/eprint/50086
ISSN: 0042-6989
PURE UUID: e230998f-e674-4c41-9fee-f07c2b677de6
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Date deposited: 22 Jan 2008
Last modified: 15 Mar 2024 10:02
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Author:
Shuichiro Taya
Author:
Masahiro Sato
Author:
Sachio Nakamizo
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