The spatial tuning of chromatic adaptation
暂无分享,去创建一个
[1] O. Reiser,et al. Principles Of Gestalt Psychology , 1936 .
[2] H. Wallach. Brightness constancy and the nature of achromatic colors. , 1948, Journal of experimental psychology.
[3] S. Hecht,et al. The colors of natural objects and terrains, and their relation to visual color deficiency. , 1949, Journal of the Optical Society of America.
[4] J. Lebensohn. Color in Business, Science, and Industry , 1952 .
[5] C. McCollough. Color Adaptation of Edge-Detectors in the Human Visual System , 1965, Science.
[6] Adolfo Guzmán-Arenas,et al. COMPUTER RECOGNITION OF THREE-DIMENSIONAL OBJECTS IN A VISUAL SCENE , 1968 .
[7] C Blakemore,et al. On the existence of neurones in the human visual system selectively sensitive to the orientation and size of retinal images , 1969, The Journal of physiology.
[8] J. J. Vos,et al. On the derivation of the foveal receptor primaries. , 1971, Vision research.
[9] C. Blakemore,et al. The orientation specificity of two visual after‐effects , 1971, The Journal of physiology.
[10] A. Gilchrist. Perceived lightness depends on perceived spatial arrangement. , 1977, Science.
[11] Steven K. Shevell,et al. Unambiguous evidence for the additive effect in chromatic adaptation , 1980, Vision Research.
[12] D. W. Heeley,et al. Cardinal directions of color space , 1982, Vision Research.
[13] D. Hubel,et al. Colour-generating interactions across the corpus callosum , 1983, Nature.
[14] A. Gilchrist,et al. The classification and integration of edges as critical to the perception of reflectance and illumination , 1983, Perception & psychophysics.
[15] S. Shevell,et al. Color perception with binocularly fused adapting fields of different wavelengths , 1985, Vision Research.
[16] E. Land. Recent advances in retinex theory , 1986, Vision Research.
[17] M D'Zmura,et al. Mechanisms of color constancy. , 1986, Journal of the Optical Society of America. A, Optics and image science.
[18] K. T. Mullen,et al. Spatial influences on colour opponent contributions to pattern detection , 1987, Vision Research.
[19] G. J. Burton,et al. Color and spatial structure in natural scenes. , 1987, Applied optics.
[20] P. Lennie,et al. Mechanisms of color vision. , 1988, Critical reviews in neurobiology.
[21] Arthur Bradley,et al. Orientation and spatial frequency selectivity of adaptation to color and luminance gratings , 1988, Vision Research.
[22] G. Buchsbaum,et al. Quantitative studies of color constancy. , 1988, Journal of the Optical Society of America. A, Optics and image science.
[23] V. S. Ramachandran,et al. Perception of shape from shading , 1988, Nature.
[24] Peter Földiák,et al. Adaptation and decorrelation in the cortex , 1989 .
[25] S. Zeki,et al. Modular Connections between Areas V2 and V4 of Macaque Monkey Visual Cortex , 1989, The European journal of neuroscience.
[26] J A Solomon,et al. Texture interactions determine perceived contrast , 1989, Proceedings of the National Academy of Sciences of the United States of America.
[27] Richard Durbin,et al. The computing neuron , 1989 .
[28] P. Lennie,et al. Contrast adaptation in striate cortex of macaque , 1989, Vision Research.
[29] N. Logothetis,et al. Perceptual deficits and the activity of the color-opponent and broad-band pathways at isoluminance. , 1990, Science.
[30] O. Braddick,et al. Masking of low frequency information in short-range apparent motion , 1990, Vision Research.
[31] Eli Brenner,et al. The role of eye movements in colour vision , 1990 .
[32] A. Valberg,et al. “Colour constancy” in Mondrian patterns: A partial cancellation of physical chromaticity shifts by simultaneous contrast , 1990, Vision Research.
[33] Patrick Cavanagh,et al. Independent orientation-selective mechanisms for the cardinal directions of colour space , 1990, Vision Research.
[34] H. Barlow. Vision: A theory about the functional role and synaptic mechanism of visual after-effects , 1991 .
[35] Colin Blakemore,et al. Vision: Coding and Efficiency , 1991 .
[36] C F Stromeyer,et al. Detection uncertainty and the facilitation of chromatic detection by luminance contours. , 1991, Journal of the Optical Society of America. A, Optics and image science.
[37] Mary Hayhoe,et al. Adaptation Mechanisms in Color and Brightness , 1991 .
[38] Arne Valberg,et al. From Pigments to Perception , 1991, NATO ASI Series.
[39] A. Werner. Studies on Colour Constancy in Man using a “Checkerboard - Mondrian” , 1991 .
[40] Color Opponency from Eye to Brain , 1991 .
[41] Mark D. Fairchild,et al. Formulation and testing of an incomplete-chromatic-adaptation model , 1991 .
[42] Barry B. Lee,et al. From pigments to perception : advances in understanding visual processes , 1991 .
[43] Mark W. Cannon,et al. Spatial interactions in apparent contrast: Inhibitory effects among grating patterns of different spatial frequencies, spatial positions and orientations , 1991, Vision Research.
[44] D. Knill,et al. Apparent surface curvature affects lightness perception , 1991, Nature.
[45] Qasim Zaidi,et al. Lateral interactions within color mechanism in simultaneous induced contrast , 1992, Vision Research.
[46] Mark D. Fairchild,et al. Chromatic adaptation to natural and incandescent illuminants , 1992, Vision Research.
[47] M. Gur,et al. Isoluminant stimuli may not expose the full contribution of color to visual functioning: Spatial contrast sensitivity measurements indicate interaction between color and luminance processing , 1992, Vision Research.
[48] Zhaoping Li,et al. What does post-adaptation color appearance reveal about cortical color representation? , 1993, Vision Research.
[49] E. Adelson. Perceptual organization and the judgment of brightness. , 1993, Science.
[50] J. Endler. The Color of Light in Forests and Its Implications , 1993 .
[51] S. Shevell,et al. Lightness and brightness judgments of coplanar retinally noncontiguous surfaces. , 1993, Journal of the Optical Society of America. A, Optics, image science, and vision.
[52] G. Sperling,et al. The lateral inhibition of perceived contrast is indifferent to on-center/off-center segregation, but specific to orientation , 1993, Vision Research.
[53] M. Webster,et al. The influence of contrast adaptation on color appearance , 1994, Vision Research.
[54] K. Bäuml. Color appearance: effects of illuminant changes under different surface collections. , 1994, Journal of the Optical Society of America. A, Optics, image science, and vision.
[55] M. D'Zmura,et al. Color contrast induction , 1994, Vision Research.
[56] M. Webster,et al. Colour constancy influenced by contrast adaptation , 1995, Nature.
[57] M D Fairchild,et al. Time course of chromatic adaptation for color-appearance judgments. , 1995, Journal of the Optical Society of America. A, Optics, image science, and vision.
[58] Eli Brenner,et al. Simultaneous colour constancy revisited: an analysis of viewing strategies , 1995, Vision Research.
[59] K R Gegenfurtner,et al. Processing of color, form, and motion in macaque area V2 , 1996, Visual Neuroscience.
[60] B. Spehar,et al. Induced Effects of Backgrounds and Foregrounds in Three-Dimensional Configurations: The Role of T-Junctions , 1997, Perception.
[61] M. Webster,et al. Adaptation and the color statistics of natural images , 1997, Vision Research.
[62] R L Pandey Vimal. Orientation tuning of the spatial-frequency-tuned mechanisms of the red-green channel. , 1997, Journal of the Optical Society of America. A, Optics, image science, and vision.
[63] I. H. Öğüş,et al. NATO ASI Series , 1997 .
[64] M. Webster,et al. Contrast adaptation and the spatial structure of natural images. , 1997, Journal of the Optical Society of America. A, Optics, image science, and vision.
[65] R. Vimal,et al. ORIENTATION TUNING OF THE SPATIAL-FREQUENCY-TUNED MECHANISMS OF THE RED-GREEN CHANNEL , 1997 .
[66] Q Zaidi,et al. Color constancy in variegated scenes: role of low-level mechanisms in discounting illumination changes. , 1997, Journal of the Optical Society of America. A, Optics, image science, and vision.
[67] Q Zaidi,et al. Adaptation to textured chromatic fields. , 1998, Journal of the Optical Society of America. A, Optics, image science, and vision.
[68] B. Regan. John Dalton’s Colour Vision Legacy , 1998 .
[69] A. Hurlbert,et al. Perception of three-dimensional shape influences colour perception through mutual illumination , 1999, Nature.
[70] J. Schirillo,et al. Surround articulation. I. Brightness judgments. , 1999, Journal of the Optical Society of America. A, Optics, image science, and vision.
[71] A. Gilchrist,et al. An anchoring theory of lightness perception. , 1999, Psychological review.
[72] J. Schirillo,et al. Surround articulation. II. Lightness judgments. , 1999, Journal of the Optical Society of America. A, Optics, image science, and vision.
[73] Karl R. Gegenfurtner,et al. Color Vision: From Genes to Perception , 1999 .
[74] S. Shevell,et al. Chromatic induction with remote chromatic contrast varied in magnitude, spatial frequency, and chromaticity , 1999, Vision Research.
[75] Sophie M. Wuerger,et al. 'Color Vision: From Genes to Perception' , 2000 .
[76] Eberhart Zrenner,et al. Asymmetries in the time-course of chromatic adaptation and the significance of contrast , 2000, Vision Research.
[77] Steven K Shevell,et al. A central mechanism of chromatic contrast , 2000, Vision Research.
[78] M. Webster,et al. Color—luminance relationships and the McCollough effect , 2000, Perception & psychophysics.
[79] S. Shevell,et al. Role of perceptual organization in chromatic induction. , 2000, Journal of the Optical Society of America. A, Optics, image science, and vision.
[80] R. Shapley,et al. The spatial transformation of color in the primary visual cortex of the macaque monkey , 2001, Nature Neuroscience.
[81] K. Bäuml. Increments and decrements in color constancy. , 2001, Journal of the Optical Society of America. A, Optics, image science, and vision.
[82] T. R. J. Bossomaier,et al. Human cone-pigment spectral sensitivities and the reflectances of natural surfaces , 1992, Biological Cybernetics.