Occlusion-related lateral connections stabilize kinetic depth stimuli through perceptual coupling


Klink, P. Christiaan and Noest, Andre J. and Berg, Albert V. van den and Wezel, Richard J.A. van (2009) Occlusion-related lateral connections stabilize kinetic depth stimuli through perceptual coupling. Journal of Vision, 9 (10). art 20. ISSN 1534-7362

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Abstract:Local sensory information is often ambiguous forcing the brain to integrate spatiotemporally separated information for stable conscious perception. Lateral connections between clusters of similarly tuned neurons in the visual cortex are a potential neural substrate for the coupling of spatially separated visual information. Ecological optics suggests that perceptual coupling of visual information is particularly beneficial in occlusion situations. Here we present a novel neural network model and a series of human psychophysical experiments that can together explain the perceptual coupling of kinetic depth stimuli with activity-driven lateral information sharing in the far depth plane. Our most striking finding is the perceptual coupling of an ambiguous kinetic depth cylinder with a coaxially presented and disparity defined cylinder backside, while a similar frontside fails to evoke coupling. Altogether, our findings are consistent with the idea that clusters of similarly tuned far depth neurons share spatially separated motion information in order to resolve local perceptual ambiguities. The classification of far depth in the facilitation mechanism results from a combination of absolute and relative depth that suggests a functional role of these lateral connections in the perception of partially occluded objects.
Item Type:Article
Additional information:Open Access
Link to this item:http://purl.utwente.nl/publications/71691
Official URL:https://doi.org/10.1167/9.10.20
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