Scene categorization at large visual eccentricities

•Scene categorization can be accomplished by peripheral vision but is better in central region.•A variety of scene classification tasks can be accomplished at 70° eccentricity.•Categorization on naturalness yielded the highest performance. Studies of scene perception have shown that the visual syste...

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Veröffentlicht in:	Vision research (Oxford) 2013-06, Vol.86, p.35-42
Hauptverfasser:	Boucart, Muriel, Moroni, Christine, Thibaut, Miguel, Szaffarczyk, Sebastien, Greene, Michelle
Format:	Artikel
Sprache:	eng
Schlagworte:	Adult Analysis of Variance Coarse-to-fine Cognitive science Female Humans Male Middle Aged Pattern Recognition, Visual - physiology Peripheral vision Photic Stimulation - methods Reaction Time Recognition (Psychology) - physiology Scene perception Visual Fields - physiology Visual Perception - physiology Young Adult
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creator	Boucart, Muriel Moroni, Christine Thibaut, Miguel Szaffarczyk, Sebastien Greene, Michelle
description	•Scene categorization can be accomplished by peripheral vision but is better in central region.•A variety of scene classification tasks can be accomplished at 70° eccentricity.•Categorization on naturalness yielded the highest performance. Studies of scene perception have shown that the visual system is particularly sensitive to global properties such as the overall layout of a scene. Such global properties cannot be computed locally, but rather require relational analysis over multiple regions. To what extent is observers’ perception of scenes impaired in the far periphery? We examined the perception of global scene properties (Experiment 1) and basic-level categories (Experiment 2) presented in the periphery from 10° to 70°. Pairs of scene photographs were simultaneously presented left and right of fixation for 80ms on a panoramic screen (5m diameter) covering the whole visual field while central fixation was controlled. Observers were instructed to press a key corresponding to the spatial location left/right of a pre-defined target property or category. The results show that classification of global scene properties (e.g., naturalness, openness) as well as basic-level categorization (e.g., forests, highways), while better near the center, were accomplished with a performance highly above chance (around 70% correct) in the far periphery even at 70° eccentricity. The perception of some global properties (e.g., naturalness) was more robust in peripheral vision than others (e.g., indoor/outdoor) that required a more local analysis. The results are consistent with studies suggesting that scene gist recognition can be accomplished by the low resolution of peripheral vision.
doi_str_mv	10.1016/j.visres.2013.04.006
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Studies of scene perception have shown that the visual system is particularly sensitive to global properties such as the overall layout of a scene. Such global properties cannot be computed locally, but rather require relational analysis over multiple regions. To what extent is observers’ perception of scenes impaired in the far periphery? We examined the perception of global scene properties (Experiment 1) and basic-level categories (Experiment 2) presented in the periphery from 10° to 70°. Pairs of scene photographs were simultaneously presented left and right of fixation for 80ms on a panoramic screen (5m diameter) covering the whole visual field while central fixation was controlled. Observers were instructed to press a key corresponding to the spatial location left/right of a pre-defined target property or category. The results show that classification of global scene properties (e.g., naturalness, openness) as well as basic-level categorization (e.g., forests, highways), while better near the center, were accomplished with a performance highly above chance (around 70% correct) in the far periphery even at 70° eccentricity. The perception of some global properties (e.g., naturalness) was more robust in peripheral vision than others (e.g., indoor/outdoor) that required a more local analysis. 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The results show that classification of global scene properties (e.g., naturalness, openness) as well as basic-level categorization (e.g., forests, highways), while better near the center, were accomplished with a performance highly above chance (around 70% correct) in the far periphery even at 70° eccentricity. The perception of some global properties (e.g., naturalness) was more robust in peripheral vision than others (e.g., indoor/outdoor) that required a more local analysis. 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subjects	Adult Analysis of Variance Coarse-to-fine Cognitive science Female Humans Male Middle Aged Pattern Recognition, Visual - physiology Peripheral vision Photic Stimulation - methods Reaction Time Recognition (Psychology) - physiology Scene perception Visual Fields - physiology Visual Perception - physiology Young Adult
title	Scene categorization at large visual eccentricities
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