Steven Shevell to Color Perception
This is a "connection" page, showing publications Steven Shevell has written about Color Perception.
Connection Strength
16.223
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Ambiguity is a linking feature for interocular grouping. J Vis. 2022 10 04; 22(11):12.
Score: 0.763
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Perceptual resolution of ambiguous neural representations for form and chromaticity. J Vis. 2019 11 01; 19(13):5.
Score: 0.623
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Perceptual resolution of color for multiple chromatically ambiguous objects. J Opt Soc Am A Opt Image Sci Vis. 2018 Apr 01; 35(4):B85-B91.
Score: 0.558
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Chromatic interocular-switch rivalry. J Vis. 2017 05 01; 17(5):9.
Score: 0.524
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Chromatic Information and Feature Detection in Fast Visual Analysis. PLoS One. 2016; 11(8):e0159898.
Score: 0.497
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Color-motion feature-binding errors are mediated by a higher-order chromatic representation. J Opt Soc Am A Opt Image Sci Vis. 2016 Mar; 33(3):A85-92.
Score: 0.483
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The role of color in motion feature-binding errors. J Vis. 2015; 15(13):8.
Score: 0.446
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Separating monocular and binocular neural mechanisms mediating chromatic contextual interactions. J Vis. 2014 Apr 17; 14(4).
Score: 0.424
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Do S cones contribute to color-motion feature binding? J Opt Soc Am A Opt Image Sci Vis. 2014 Apr 01; 31(4):A60-4.
Score: 0.423
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Perceived segmentation of center from surround by only illusory contours causes chromatic lateral inhibition. Vision Res. 2013 Jun 28; 86:66-70.
Score: 0.396
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The Verriest Lecture: color lessons from space, time and motion. J Opt Soc Am A Opt Image Sci Vis. 2012 Feb 01; 29(2):A337-45.
Score: 0.364
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Individual differences in simultaneous color constancy are related to working memory. J Opt Soc Am A Opt Image Sci Vis. 2012 Feb 01; 29(2):A52-9.
Score: 0.364
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Working memory is related to perceptual processing: a case from color perception. J Exp Psychol Learn Mem Cogn. 2011 Jul; 37(4):1014-21.
Score: 0.349
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What kinds of contours bound the reach of filled-in color? J Vis. 2011 Feb 02; 11(2).
Score: 0.340
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Very-long-term and short-term chromatic adaptation: are their influences cumulative? Vision Res. 2011 Feb 09; 51(3):362-6.
Score: 0.336
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Color-binding errors during rivalrous suppression of form. Psychol Sci. 2009 Sep; 20(9):1084-91.
Score: 0.306
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The neural pathways mediating color shifts induced by temporally varying light. J Vis. 2009 May 28; 9(5):26.1-10.
Score: 0.302
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Induced temporal variation at frequencies not in the stimulus: evidence for a neural nonlinearity. J Vis. 2009 Mar 17; 9(3):12.1-11.
Score: 0.298
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The role of luminance edges in misbinding of color to form. Vision Res. 2008 Nov; 48(25):2495-500.
Score: 0.289
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Induction from a below-threshold chromatic pattern. J Vis. 2008 Sep 23; 8(12):7.1-7.
Score: 0.288
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Very-long-term chromatic adaptation: test of gain theory and a new method. Vis Neurosci. 2008 May-Jun; 25(3):411-4.
Score: 0.281
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The influence of chromatic context on binocular color rivalry: perception and neural representation. Vision Res. 2008 Mar; 48(8):1074-83.
Score: 0.278
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Misbinding of color to form in afterimages. Vis Neurosci. 2008 May-Jun; 25(3):355-60.
Score: 0.278
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Binocular rivalry between identical retinal stimuli with an induced color difference. Vis Neurosci. 2008 May-Jun; 25(3):361-4.
Score: 0.278
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Color in complex scenes. Annu Rev Psychol. 2008; 59:143-66.
Score: 0.274
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Temporal nulling of induction from spatial patterns modulated in time. Vis Neurosci. 2006 May-Aug; 23(3-4):479-82.
Score: 0.244
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Induced steady color shifts from temporally varying surrounds. Vis Neurosci. 2006 May-Aug; 23(3-4):483-7.
Score: 0.244
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Resolution of binocular rivalry: Perceptual misbinding of color. Vis Neurosci. 2006 May-Aug; 23(3-4):561-6.
Score: 0.244
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Color shifts induced by S-cone patterns are mediated by a neural representation driven by multiple cone types. Vis Neurosci. 2006 May-Aug; 23(3-4):567-71.
Score: 0.244
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Chromatic assimilation measured by temporal nulling. Vision Res. 2006 Jan; 46(1-2):106-16.
Score: 0.232
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Color shifts from S-cone patterned backgrounds: contrast sensitivity and spatial frequency selectivity. Vision Res. 2005 Apr; 45(9):1147-54.
Score: 0.222
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Chromatic assimilation: spread light or neural mechanism? Vision Res. 2005 Apr; 45(8):1031-45.
Score: 0.222
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Influence of motion on chromatic detection. Vis Neurosci. 2004 May-Jun; 21(3):327-30.
Score: 0.213
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Brightness induction: unequal spatial integration with increments and decrements. Vis Neurosci. 2004 May-Jun; 21(3):353-7.
Score: 0.213
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Chromatic assimilation unaffected by perceived depth of inducing light. Vis Neurosci. 2004 May-Jun; 21(3):373-6.
Score: 0.213
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Changes in color appearance caused by perceptual grouping. Vis Neurosci. 2004 May-Jun; 21(3):383-8.
Score: 0.213
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Chromatic induction from S-cone patterns. Vision Res. 2004 Apr; 44(9):849-56.
Score: 0.211
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Large shifts in color appearance from patterned chromatic backgrounds. Nat Neurosci. 2003 Aug; 6(8):801-2.
Score: 0.202
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Surface color perception under two illuminants: the second illuminant reduces color constancy. J Vis. 2003; 3(5):369-79.
Score: 0.194
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Stereo disparity improves color constancy. Vision Res. 2002 Jul; 42(16):1979-89.
Score: 0.187
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Simultaneous S-cone contrast. Vision Res. 2002 Jan; 42(1):75-88.
Score: 0.181
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Articulation: brightness, apparent illumination, and contrast ratios. Perception. 2002; 31(2):161-9.
Score: 0.181
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Relating cone signals to color appearance: failure of monotonicity in yellow/blue. Vis Neurosci. 2001 Nov-Dec; 18(6):901-6.
Score: 0.179
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Decoding chromaticity and luminance from patterns of EEG activity. Psychophysiology. 2021 04; 58(4):e13779.
Score: 0.170
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Neural representations of perceptual color experience in the human ventral visual pathway. Proc Natl Acad Sci U S A. 2020 06 09; 117(23):13145-13150.
Score: 0.162
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Role of perceptual organization in chromatic induction. J Opt Soc Am A Opt Image Sci Vis. 2000 Feb; 17(2):244-54.
Score: 0.158
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A central mechanism of chromatic contrast. Vision Res. 2000; 40(23):3173-80.
Score: 0.158
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Chromatic induction with remote chromatic contrast varied in magnitude, spatial frequency, and chromaticity. Vision Res. 1999 Oct; 39(21):3561-74.
Score: 0.155
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Relating color discrimination to photopigment genes in deutan observers. Vision Res. 1998 Nov; 38(21):3371-6.
Score: 0.145
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Chromatic induction: border contrast or adaptation to surrounding light? Vision Res. 1998 Jun; 38(11):1561-6.
Score: 0.141
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Color perception with test and adapting lights perceived in different depth planes. Vision Res. 1996 Apr; 36(7):949-54.
Score: 0.121
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Variation in color matching and discrimination among deuteranomalous trichromats: theoretical implications of small differences in photopigments. Vision Res. 1995 Sep; 35(18):2579-88.
Score: 0.117
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Color appearance with sparse chromatic context. Vision Res. 1995 Mar; 35(6):797-805.
Score: 0.113
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Color appearance under chromatic adaptation varied along theoretically significant axes in color space. J Opt Soc Am A Opt Image Sci Vis. 1995 Jan; 12(1):36-46.
Score: 0.111
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Color perception within a chromatic context: the effect of short-wavelength light on color appearance. Vision Res. 1994 Feb; 34(3):359-65.
Score: 0.105
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Individual differences in cone photopigments of normal trichromats measured by dual Rayleigh-type color matches. Vision Res. 1994 Feb; 34(3):367-76.
Score: 0.105
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Color perception within a chromatic context: changes in red/green equilibria caused by noncontiguous light. Vision Res. 1992 Sep; 32(9):1623-34.
Score: 0.095
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Redness from short-wavelength-sensitive cones does not induce greenness. Vision Res. 1992 Aug; 32(8):1551-6.
Score: 0.094
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On neural signals that mediate induced blackness. Vision Res. 1989; 29(7):891-900.
Score: 0.073
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Foveal cone thresholds. Vision Res. 1989; 29(1):61-78.
Score: 0.073
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Color perception under chromatic adaptation: red/green equilibria with adapted short-wavelength-sensitive cones. Vision Res. 1988; 28(12):1345-56.
Score: 0.069
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A central binocular mechanism affects chromatic adaptation. Vision Res. 1987; 27(3):429-39.
Score: 0.064
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On neural signals that mediate brightness. Vision Res. 1986; 26(8):1195-208.
Score: 0.060
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Color perception with binocularly fused adapting fields of different wavelengths. Vision Res. 1985; 25(12):1923-35.
Score: 0.056
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Color perception under contralateral and binocularly fused chromatic adaption. Vision Res. 1984; 24(9):1011-9.
Score: 0.052
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Color perception under chromatic adaptation: "supersensitivity" with dim backgrounds. Vision Res. 1984; 24(5):491-5.
Score: 0.052
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Color perception under chromatic adaptation: equilibrium yellow and long-wavelength adaptation. Vision Res. 1982; 22(2):279-92.
Score: 0.045
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Unambiguous evidence for the additive effect in chromatic adaptation. Vision Res. 1980; 20(7):637-9.
Score: 0.039
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The dual role of chromatic backgrounds in color perception. Vision Res. 1978; 18(12):1649-61.
Score: 0.034
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Serine/alanine amino acid polymorphism of the L-cone photopigment assessed by dual Rayleigh-type color matches. Vision Res. 1994 Feb; 34(3):377-82.
Score: 0.026
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Foveal cone detection statistics in color-normals and dichromats. Vision Res. 1991; 31(6):1021-37.
Score: 0.021
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Saturation in human cones. Vision Res. 1977; 17(3):427-34.
Score: 0.008