Bibliographie

1. Abbey, C.K., Eckstein, M.P (2000). Estimates of human-observer templates for a simple detection task in correlated noise. Proceedings of SPIE,3981, 70-77.
2. Abbey, C.K., Eckstein, M.P (2002). Classification image analysis : estimation and statistical inference for two-alternative forced choice experiments. Journal of Vision, 2, 66-78.
3. Abbey, C.K., Eckstein, M.P., Bochud F.O. (1999). Estimation of human observer templates in two alternative forced-choice experiments. Proceedings of SPIE,3663.
4. Ahumada, A. (1996) Perceptual classification images from vernier acuity masked by noise. Perception (Suppl.), 25, 18.
5. Ahumada, A.J., & Beard, B.L. (1998). Response classification images in vernier acuity. Investigative Ophthalmology and Visual Science, 39, 1109.
6. Ahumada, A. J. & Lovell, J. (1970). Stimulus features in signal detection. Journal of the Acoustical Society of America, 49, 1751-1756.
7. Ahumada, A. J., Marken, R. & Sandusky, A. (1975). Time and frequency analyses of auditory signal detection. Journal of the Optical Society of America, 57, 385-390.
8. Alexander, K.R., Pokorny, J. Smith, V.C., Fishman, G.A., & Barnes, C.S. (2001). Contrast discrimination deficits in retinis pigmentosa are greater for stimuli that favor the magnocellular pathway. Vision Research, 41, 671-683.
9. Allison, J.D., Melzer, P., Ding, Y., Bonds, A.B ;, & Casagrande, V.A. (2000). Differential contribution of magnocellular and parvocellular pathways to the contrats response of neurons in bush baby primary visual cortex (V1). Visual Neuroscience, 17, 71-76.
10. Angelucci, A., Levitt, J.B., Walton, E.J.S., Hupé, J.M., Bullier, J., & Lund, J.S. (2002). Circuit of local and global signal integration in primary visual cortex. Journal of Neuroscience, 22, 8633-8646.
11. Anstis, S. (1996). Adptation to peripheral flicker. Vision Research, 36, 3479-3485.
12. Altmann, C.F., Bülthoff, H.H., & Kourtzi, Z. (2003). Perceptual organization of local elements into global shapes in the human visual cortex. Current Biology, 13, 342-349.
13. Barlow, H.B. (1956). Retinal noise and absolute threshold. Journal of Optical Society of America. 46, 634-639.
14. Barlow, H.B. (1958). Temporal and spatial summation in human vision at different background intensities. Journal of Physiology, 141, 337-350.
15. Beard, B.L. & Ahumada, A.J. (1997). Relevant images features for Vernier acuity. Investigative Ophthalmology and Visual Sciences (Suppl.), 38, p. 118.
16. Beard, B.L. & Ahumada, A.J. (1998). Response classification images in vernier acuity. Investigative Ophthalmology and Visual Sciences (Suppl.), 39, p. 118.
17. Beaudot, W.H.A. (2002). Role of onset asynchrony in contour integration. Vision Research, 42, 1-9.
18. Bex, P.J., Simmers, A. J., & Dakin, S.C. (2001). Snakes and ladders : the role of temporal modulation in visual contour integration. Vision Research, 41, 3775-3782.
19. Biederman, I. (1987). Recognition-by-component : A theory of human image understanding. Psychological Review, 94, 115-147.
20. Biederman, I., & Ju, G. (1988). Surface versus edge-based determinants of visual recognition. Cognitive Psychology, 14, 143-177.
21. Blakemore, C., Mansey, J.P.J., & Ridley, R.M. (1971). Perceptual fading of a stabilized image cortical image. Nature, 233, 204-205.
22. Boucart, M. (1996). La reconnaissance des objets. Presses Universitaires de Grenoble.
23. Boucart, M., Delord, S., & Giersch, A. (1994). The computation of contour information in complex objects. Perception, 23, 399-409.
24. Boucart, M., Ferrand, L., & Grainger, J. (1995). Three-dimensionnal features facilitate object recognition. Visual Cognition, 2, 451-478.
25. Boynton, G., Demb, J.B., Glover, G.H., & Heeger, D.J. (1999). Neuronal basis of contrast discrimination. Vision Research, 39, 257-269.
26. Braje, W.L., Tjan, B.S., & Legge, G. (1995). Human efficiency for recognizing and detecting low-pass filtered objects. Vision Research, 35, 2955-2986.
27. Brigner, W.L. (1982). Mathematical model for the filling-in of illusionary contour. Perceptual & Motor Skills, 54, 815-820.
28. Brehaut, J.C., Enns, J.T., & Di Lollo, V. (1999). Visual masking plays two roles in the attentionnal blink. Perception & Psychophysique, 61, 1436-1448.
29. Breitmeyer, B.G. (1984). Visual masking : an interactive approach. Oxford : Clarendon Press.
30. Breitmeyer, B.G., & Ganz, L. (1976). Implications of sustainedand transient channels for theories of visual pattern masking, saccadic suppression and information processing. Psychological Review, 83, 1-36.
31. Breitmeyer, B.G., & Ogmen, H. (2000). Recent models and findings in visual backward masking : a comparison, review, and update. Perception and Psychophysics, 62, 1572-1595.
32. Brown, R.J., & Thurmond, J.B. (1993). Preattentive and cognitive effects on perceptual completion at the blind spot. Perception and Psychophysics, 53, 200-209.
33. Bullier, J. (1998). Architecture fonctionnelle du système visuel. In Boucart, M., Hénaff, M.A., & Belin, C. (Eds.), Vision : aspects perceptifs et cognitifs. Marseille : Solal.
34. Bullier, J. (2001). Integrated model of visual processing. Brain Research Review, 36, 96-107.
35. Bullier, J ; (2002). Neural basis of vision. In H. Pashler (Ed.), Stevens’handbook of experimental psychology (3rd edition) Volume 1 : sensation and perception. New-York : Wiley and Sons.
36. Campbell, F.W., & Robson, J.G. (1968). Application of `Fourier analysis to the visibility of gratings. Journal of Physiology, 197, 551-566.
37. Caputo, G ; (1998). Texture brightness filling-in. Vision Research, 38, 841-851.
38. Chavane, F., Monier, C., Bringuier, V., Baudot, P., Borg-Graham, L., Lorenceau, J., & Frégnac, Y. (2000). The visual cortical association field : a gestalt concept or a psychological entity ? Journal of Physiology (Paris), 94, 333-342.
39. Chino, Y.M., Kaas, J.H., SmithIII, E.L., Langston, A.L., & Cheng, H. (1992). Rapid reorganisation of cortical maps in adult cats following restricted deafferentation in retina. Vision Research, 32, 789-796.
40. Churchland, P.S., & Ramachandran, V.S. (1996). Filling-in : Why Dennett is wrong. In K. Atkins (Ed.) Perception. New-York : Oxford University Press.
41. Croner, L.J., & Kaplan, E. (1995). Receptive fields of P and M ganglioncells across the primate retina. Vision Research, 35, 7-24.
42. Croner, L.J., Purpura, K., & Kaplan, E. (1993). Response variability in retinal ganglion cells of primates. Proceedings of the National Academy of Science of the United States of America, 90, 8128-8130.
43. Dacey, D.M., & Petersen, M.R. (1992). Dentritic field size and morphology of mideget and parasol ganglion cells of the human retina. Proceedings of the National Academy of Science of the United States of America, 89, 9666-9670.
44. Dacey, D.M., Packer, O.S., Diller, S., Brainard, D., Peterson, B., & Lee, B.B. (2000). Center surround receptive field structure of cone bipolar cells in primate retina. Vision Research, 40, 1801-1811.
45. Davey, M.P., Madess, T., & Srinivan, M.V. (1998). The spatiotemporal properties of the Craik-O’Brien-Cornsweet effect are consistent with fillin-in. Vision Research, 38, 2037-2046.
46. Day, R.H., & Jory, M.K. (1980). A note on a seond stage in the formation of illusory contours. Perception and Psychophysics, 27, 89-91.
47. Delord, S. (1998). Which mask is the most efficient : A pattern or a noise ? It depends on the task. Visual Cognition, 5, 313-338.
48. Delord, S. (2002). Le masquage. In Dictionnaire des Sciences Cognitives (G. Tiberghien, Ed.). Paris : Armand Colin.
49. Dennett, D.C. (1991). Consciousness explained. Boston : Little Brown.
50. DeAngelis, G.C., Anzai, A., Ohzawa, I., & Freeman, R.D. (1995). Receptive field structure in the visual cortex : does stimulation induce plasticity. Proceedings of the National Academy of Science USA, 92, 9682-9686.
51. DeBonet, J.S. & Zaidi, Q. (1997). Comparison between spatial interactions in perceived contrast and perceived brigthness. Vision Research, 37, 1141-1155.
52. DeCharms, R.C., & Zador, A. (2000). Neural representation and the cortical code. Annual Review of Neuroscience, 23, 613-647.
53. Desimone, R., & Duncan, J. (1995). Neural mechanisms of selective visual attention. Annual Review of Neuroscience, 18, 193-222.
54. DeValois, R.L., Albrecht, D.G., & Thorell, L.G. (1982). Spatial frequency selectivity of cells in macaque visual cortex. Vision Research, 22, 545-549.
55. DeValois, R.L., & DeValois, K.K. (1988). Spatial vision. Oxford : Oxford University Press.
56. DeWeerd, P., Desimone, R., & Ungerleider, L.G. (1998). Perceptual filling-in : a parametric study. Vision Research, 38, 2721-2734.
57. DeWeerd, P., Gattass, R., Desimone, R., & Ungerleider, L.G. (1995). Responses of cells in monkey visual cortex during perceptual filling-in of an artificial scotoma. Nature, 377, 731-734.
58. Dresp, B. (1997). On « illusory » contours and their functionnal significance. Cahiers de Psychologie Cognitive/Current Psychology of Cognition, 16, 489-518.
59. Dresp, B., & Bonnet, C. (1991). Psychophysical evidence for low-level processing of illusory contours and surfaces in the Kanizsa square. Vision Research, 31, 1813-1817.
60. Dresp, B., & Bonnet, C. (1993). Psychophysical measures of illusory form perception : further evidence for local mechanisms. Vision Research, 33, 759-766.
61. Dresp, B., & Grossberg, S. (1997). Contour integration across polarities and spatial gaps : From local contrast filtering to local grouping. Vision reseach, 37, 913-924.
62. Dresp, B., & Grossberg, S. (1999). Spatial facilitation by color and luminance edges : boundary, surface, and attentionnal factors. Vision Research, 39, 3431-3443.
63. Durgin, F.H., Tripathy, S.P., & Levi, D.M. (1995). On the filling-in of the visual blind spot : some rule of thumb. Perception, 24, 827-840.
64. Eckstein, M.P., Shimozacki, S.S., & Abbey, C.K. (2002). The footsprints of visual ttention in the Posner cueing paradigm revealed by classification images. Journal of Vision, 2, 25-45.
65. Enns, J.T., Di Lollo, V. (2000). What new in visual masking ? Trends in Cognitive Sciences, 4, 345-352.
66. Enroth-Cugell, C., & Robson, J.G. (1966). The contrast sensitivity of retinal ganglion cells of the cat. Journal of Physiology, 187, 517-522.
67. Eysel,U.T., & Schweigart, G. (1999). Increased receptive field size in the surround of chronic lesions in the adult cat visual cortex. Cerebral Cortex, 9, 101-109.
68. Farid, H. (2002). Temporal synchrony in perceptual grouping : a critique. Trends in Cognitive Sciences, 7, 284-288.
69. Felleman, D.J., & Van Essen, D.C. (1991). Distributed hierarchical processing in the primate cerebral cortex. Cerebral Cortex, 1, 1-47.
70. Field, D.J., Hayes, A., & Hess, R.E. (1993). Contour integration by the human visual system : evidence for a local «  association field ». Vision Research, 33, 173-193.
71. Fitzpatrick, D.J. (2000). Seeing beyond the receptive field in primay visual cortex. Current Opinion in Neurobiology, 10, 438-443.
72. Fitzpatrick, D., Lund, J.S., & Blasdel, G.G. (1985). Intrinsic connections of the macaque striate cortex : afferent and efferent connections of lamina 4c. Journal of neuroscience, 5, 3329-3349.
73. Fitzpatrick, D., Usrey, W.M., Schofield, B.R., & Einstein, G. (1994). The subliminar organization of corticogeniculate neurons in layer 6 of macaque striate cortex. Visual Neuroscience, 11, 307-315.
74. Friedman, H.S., Zhou, H., & von der Heydt, R. (1999). Color filling-in under steady fixation : behaviral demonstration in monkeys and humans. Perception, 28, 1383-1395.
75. Geisler, W.S. (1989). Sequential ideal-observer analysis of visual discrimination. Psychological Review, 96, 267-314.
76. Geisler, W.S., Perry, J.S., Super, B.J., & Gallogly, D.P. (2001). Edges co-occurrence in natural images predicts contour grouping performance. Vision Research, 41, 711-724.
77. Gerrits, H.J.M., & Timmerman, G.J.M.E.N. (1968). The filling-in process in patients with retinal scotoma. Vision Research, 9, 439-442.
78. Gerrits, H.J.M., & Vendrik, A.M. (1970). Simultaneous contrast, filling-in process and information processing in man’s visual system. Experimental Brain Research, 11, 411-430.
79. Ghose, G.M., & Maunsell, J.R. (2002). Attentional modulation in visual cortex depends on task timing. Nature, 419, 616-620.
80. Giersch, A., Humphreys, G.W., Boucart, M., & Kovacs, I. (2000). The computation of occluded contours in visual agnosia: Evidence for early computation prior to shape binding and figure-ground coding. Cognitive Neuropsychology, 17, 731-759.
81. Gilbert, C.D. (1995). Dynamic properties of adult visual cortex. In Gazzaniga M. (Ed.), The cognitive neuroscience. Cambrideg, MA : MIT Press.
82. Gilbert, C.D. (1996). Plasticity in visual perception and physiology. Current Opinion in Neurobiology, 6, 269-274.
83. Gilbert, C.D., & Wiesel, T.N. (1979). Morphology and intracortical projections of functionally characterised neurones in the cat visual cortex. Nature, 280, 120-125.
84. Gilbert, C.D., & Wiesel, T.N. (1989). Columnar specificity of intrinsic horizontal and corticocortical connections in cat visual cortex. Journal of Neuroscience, 9, 2432-2442.
85. Gilbert, C.D., & Wiesel, T.N. (1990). The influence of contextual stimuli on the orientation selectivity of cells in primary visual cortex of the cat. Vision Research, 30, 1689-1701.
86. Gilbert, C.D., & Wiesel, T.N. (1992). Receptive field dynamics in adult primary visual cortex. Nature, 356, 150-152.
87. Gilbert, C.D., Das, A., Ito, M., Kapadia, M., & Westheimer, G. (1996). Spatial integration and cortical dynamics. Proceedings of the National Academy of Science of the UnitedStates of America, 93, 615-622.
88. Ginsburg, A.P. (1986). Spatial filtering and visual form perception. In K.R. Boff, L. Kaufman, & J.P. Thomas (eds.), Handbook of human perception and performance, vol. 2. New-York : Wiley.
89. Gold, J., Murray, R.F., Bennett, P.J., & Sekuler, A.B. (2000). Deriving behavioural receptive fields for visually completed ? Current Biology, 10, 663-666.
90. Gouras, P. (1968). Identification of cone mechanisms in monkey ganglion cells. Journal of Physiology, 199, 533-547.
91. Gray, C.M., Konig, P., Engel, A.K., & Singer, W. (1989). Oscillatory responses in cat visual cortex exibit inter-columnar synchronization which reflects global stimulus properties. Nature, 338, 334-337.
92. Green, D.M., & Swets, J. (1966). Signal detection theory and Psychophysics New-York : Robert E. Krieger Publishing Company.
93. Grosof, D.H., Shapley, R.M., & Hawken, M.J. (1993). Macaque V1 neurones can signal « illusory » contours. Nature, 365, 550-552.
94. Grossberg, S. (1994). 3-D vision and figure-ground separation by visual cortex. Perception and Psychophysics, 55, 48-120.
95. Grossberg, S. (2000). The complementary brain : a unifying view of brain specialization and modularity. Trends in Cognitive Science, 4, 233-246.
96. Grossberg, S., & Mingolla, E. (1985). Neural dynamics of form perception : Boundary Completion, illusory figures, and neon color spreading. Psychological Review, 92, 173-211.
97. Grossberg, S., & Todorovic’, E. (1988). Neural dynamics of 1-D and 2-D brightness perception : a unified model of classical model and recent phenomena. Perception and Psychophysics, 43, 241-277.
98. Grossberg, S., Mingolla, E., & Ross, W.D. (1997). Visual brain and visual perception : how does the cortex do perceptual grouping ? Trends in Neuroscience, 20, 106-117.
99. Gyoba, J. (1997). Loss of a forest : perceptual fading and filling-in of static texture patterns. Perception, 26, 1317-1320.
100. Haith, M.M., Bergman, T., & Moore, M.J. (1977). Eye contact and face scanning in early infancy. Science, 198, 853-855.
101. Hendry, S.H.C., & Reid, R.C. (2000). The koniocellular pathway in primate vision. Annual Review of Neuroscience, 23, 127-153.
102. Hess, R.F., Beaudot, W.H.A. , & Mullen, K.T. (2001). Dynamics of contour integration. Vision Research, 41, 1023-1037.
103. Hess, R., & Dakin, S. (1997). Absence of contour linking in peripheral vision. Nature, 390, 602-604.
104. Hess, R., & Dakin, S. (1999). Contour integration in the peripheral field. Vision Research, 39, 947-959.
105. Hess, R., Dakin, S., & Field, D.J. (1998). The role of « contrats enhancement » in the detection and appearance of visual contours. Vision Research, 38, 783-787.
106. Hess, R., & Field, D. (1999). Integration of contours : new insights. Trends in Cognitive Science, 3, 480-486.
107. Hirsch J.A., & Gilbert, C.D. (1991). Synaptic physiology of horizontal connections in the cat’s visual cortex. Journal of Neuroscience, 11, 1800-1809.
108. Hirsch, J., DeLaPaz, R., Relkin, N.R., Victor, J., Kim, K., Li, T., Borden, P., Rubin, N., & Shapley, R. (1995). Illusory contours activate specific regions in human visual cortex : evidence from functionnal magnetic resonnance imaging. Proceedings of the National Academy of Science of the UnitedStates of America, 92, 6469-6473.
109. Huang, X., MacEvoy, S.P., & Paradiso, M.A. (2002). Perception of brightness illusions in the macaque monkey. Journal of Neuroscience, 22, 9618-9625.
110. Hubel, D. (1994). L’œil, le cerveau et la vision. Paris : Belin.
111. Hubel, D., & Wiesel, T. (1962). Receptive fields, binocular interaction and functionnal architecture in two non-striate viual areas of the cat. Journal of Physiology, 160, 106-154.
112. Hubel, D., & Wiesel, T. (1968). Receptive fields, and functionnal architecture of monkey striate cortex. Journal of Physiology, 195, 215-243.
113. Hung, C.P., Ramsden, B.M., Chen, L.M., & Roe, A.W. (2001). Building surfaces from borders in area 17 and 18 of the cat. Vision Research, 41, 1389-1407.
114. Kapadia, M.K., Ito, M., Gilbert, C.D., & Westheimer, G. (1995). Improvement in visual sensitivity by changes in local context : parallel studies in human observers and in V1 of alert monkeys. Neuron, 15, 843-856.
115. Kapadia, M.K., Westheimer, G., & Gilbert, C.D. (1999). Dynamics of spatial summation in primary visual cortex. Proceedings of the National Academy of Science of the United States of America, 96, 12073-12078.
116. Kapadia, M.K., Westheimer, G., & Gilbert, C.D. (2000). Spatial distribution of contextual interactions in primary visual cortex and in visual perception. Journal of Physiology, 87, 2048-2062.
117. Kaplan, E ; (2003). The M, P and K pathways of the primate visual system. In L.M. Chalupa & J.S. Werner (Eds), The visual neurosciences. Cambridge, MA : MIT Press.
118. Kaplan, & Shapley, R. (1986). The primate retina contains two types of ganglion cells, with high and low contrast sensitivity. Proceedings of the National Academy of Science of the United States of America, 83, 2755-2757.
119. Kasamatsu, T., Polat, U., Pettet, M.W., Norcia, A.M. (2001. Colinear facilitation promotes reliability of single cell responses in cat striate cortex. Experimental Brain Research, 138, 163-172.
120. Kastner, S., Nothdurft, H.C., & Pigarev, I.N. (1997). Neuronal correlates of pop-out in cat striate cortex. Vision Research, 37, 371-376.
121. Kessen, W., Salapatek, P., & Haith, M. (1972). The visual response of the human newborn to linear contour. Journal of Experimental Child Psychology, 13, 9-20.
122. Kinoshita, M., & Komatsu, H. (2001). Neural representation of the luminance and brightness of a uniform surface in the macaque primary visual cortex. Journal of Physiology, 86, 2559-2570.
123. Knierim, J.J., & Van Essen, D.C. (1992). Neuronal responses to static texture patterns in area V1 of the alert macaque monkey. Journal of Neurophysiology, 67, 961-980.
124. Knoblauch, K. (1999). Vision des couleurs chez les primates. Primatologie, 2, 29-59.
125. Knoblauch, K., & Shevell, S.K. (2003). Color appearance. In L.M. Chalupa & J.S. Werner (Eds.), The visual neurosciences. Cambridge (MA) : MIT Press.
126. Knoblauch, K. & Yssaad-Fesselier, R. (2000). Stimulus Features used during learning of an unknown visual signal (s). Investigative Ophthalmology & Visual Science, 41, s46.
127. Komatsu, H., & Murakami, I. (1994). Behavioral evidence of filling-in at the blind spot of the monkey. Visual Neuroscience, 11, 1103-1113.
128. Komatsu, H., Kinoshita, M., & Murakami, I. (2000). Neural responses in the retinotopic representation of the blind spot in the macaque V1 to stimuli for perceptual filling-in. Journal of Neuroscience, 20, 9310-9319.
129. Komatsu, H., Kinoshita, M., & Murakami, I. (2002). Neural Responses in the primary visual cortex of the monkey during perceptual filling-in at the blind spot. Neuroscience Research, 44, 231-236.
130. Komatsu, H., Murakami, I., & Kinoshita, M. (1996). Surface representation in the visual system. Cognitive Brain Research, 5, 97-104.
131. Kourtzi, Z., & Kanwisher, N. (2000). Cortical region involved in perceiving object shape. Journal of Neuroscience, 20, 3310-3318.
132. Kovacs, I. (1996). Gestalten of today : early processing of visual contours and surface. Behavioural Brain Research, 82, 1-11.
133. Kovacs, I., & Julesz, B. (1993). A closed curve is much more than incomplete one : efect of closure in figure-ground segmentation. Proceedings of the National Academy of Science of the United States of America, 90, 7495-7497.
134. Kovacs, I., & Julesz, B. (1994). Perceptual sensitivity maps within globally defined visual shapes. Nature, 370, 644-646.
135. Krauskopf, J. (1963). Effect of retinal image stabilization on the appearance of heterochromatic targets. Journal of the Optical Society of America, 53, 764-778.
136. Lamme, V.A. (1995). The neurophysiology of figure-ground segmentation in primary visual cortex. Journal of Neuroscience, 15, 1605-1615.
137. Lamme, V.A.F., & Roelfsema, P.R. (2000). The distinct modes of vision offered by feedforward and recurrent processing. Trends in Neuroscience, 23, 571-579.
138. Lamme,V.A.F., & Spekreijse, H. (1998). Neuronal synchrony does not represent texture segregation. Nature, 396, 362-366.
139. Lamme, V.A.F., & Spekreijse, H. (2000). Contextual modulation in primary visual cortex and scene perception. In Gazzaniga (Ed.), The new cognitive neurosciences. Cambridge, MA: MIT Press.
140. Lamme, V.A.F., Rodriguez-rodriguez, V., & Spekreijse, H. (1999). Seprarte processing dynamic for texure elements, boundaries and surfaces in primary visual cortex of the macaque monkey. Cerebral Cortex, 9, 406-413.
141. Lamme, V.A.F., Supèr H., & Spkreijse, H. (1998). Feedforward, horizontal, and feedback processing in the visual cortex. Current Opinion in Neurobiology, 8, 529-535.
142. Lamme, V.A.F., Zipser, K., & Spekreijse, H. (2002). Masking interrups figure-ground signals in V1. Journal of Cognitive Neuroscience, 14, 1044-1053.
143. Lee, B.L. (1996). Receptive Field structure in the primate retina. Vision Research, 36, 631-644.
144. Lee, B.B., Kremers, J., & Yeh, T. (1998). Receptive fields of primate retinal ganglion cells studied with a novel technique. Visual Neuroscience, 15, 161-175.
145. Lee, B.B., Pokorny, J., Smith, V.C., Martin, P.R., & Valberg, A. (1990). Luminance and chromatic modulation sensitivity of macaque ganglion cells and human observer. Journal of Optical Society of America, 7, 2223-2236.
146. Lee, T.S., & Nguyen, M. (2001). Dynamics of subjective contour formation in the early visual cortex. Proceedings of the National Academy of Science of the United States of America, 98, 1907-1911.
147. Legge, (1978). Sustained and transient mechanisms in human vision. Vision Research, 18, 69-81.
148. Lesher, G.W. (1995). Illusory contours : toward a neurally based perceptual theory. Psychonomic Bulletin and Review, 2, 279-321.
149. Levi, D. M. & Klein, S. A. (1985). Vernier acuity, crowding and amblyopia. Vision Research, 25, 979-991.
150. Levi, D.M, & Klein, S.A. (2002). Classification images for detection and position discrimination in the fovea and parafovea. Journal of Vision, 2, 46-65.
151. Levitt, J.B., & Lund, J.S. (1997). Contrast dependence of contextual effects in primate visual cortex. Nature, 387, 73-76.
152. Li, Z. (1999). Contextual influences in V1 as a basis for pop out and asymmetry in visual search. Proceedings of the National Academy of Science of the United States of America, 96, 10530-10535.
153. Li, W., & Gilbert, C.D. (2002). Global contour saliency and local colinear interactions. Journal of Neurophysiology, 88, 2846-2856.
154. Livingstone, M., & Hubel, D. (1988). Segregation of form, movement, and depth : anatomy, physiology, and perception. Science, 240, 740-749.
155. Lou, l. (1999). Selective peripheral fading : evidence for inhibitory sensory effect of attention. Perception, 28, 519-526.
156. Lu, Z.L., & Dosher, B.A. (1998). External noise distinguishes attention mechanisms. Vision Research, 38, 1183-1198.
157. Lund, J.S., Yoshioka, T., & Levitt, J.B. (1993). Comparison of intrinsic connectivity in different areas of macaque monkey cerebral cortex. Cerebral Cortex, 3, 148-162.
158. MacEvoy, S.P., & Paradiso, M. (2001). Lightness constancy in primary visual cortex. Proceedings of the National Academy of Science of the UnitedStates of America, 98, 8827-8831.
159. MacEvoy, S.P., Kim, W., & Paradiso, M. (1998). Integration of surface information in primary visual cortex. Nature Neuroscience, 1, 616-620.
160. Macknik, S.L., & Livingstone, M.S. (1998). Neuronal correlates of visibility and invisibility in the primate visual system. Nature Neuroscience, 1, 144-149.
161. Macknick, S.P., Martinez-Conde, S., & Haglund, M. (2000). The role of spatiotemporal edges in visibility and visual masking. Proceedings of the National Academy of Science of the UnitedStates of America, 97, 7556-7560.
162. MacMillan, N.A., & Creelman, C.D. (1991). Detection theory : a user’s guide. New-York : Cambridge University Press.
163. Magnussen, S., Spillman, L., Sturzel, F., & Werner, J. (2001). Filling-in of the foveal blue scotoma. Vision Research, 41, 2961-2967.
164. Malach, R., Amir, Y., Harel, M., & Grinvald, A. (1993). Relationship between intrinsic connections and functionnal architecture revealed by optical imaging and in vivo targeted biocytin injections in primate striate cortex. Proceedings of the National Academy of Science of the UnitedStates of America, 90, 10469-10473.
165. Marr, D. (1982). Vision : a computational investigation into the human representation and processing of visual information. San Franscisco : W.H. Freeman.
166. Marr, D., & Hildreth, E. (1980). Theory of edge detection. Proceedings of the Royal Society of London, 207, 187-217.
167. Marr, D., & Nishihara, H.K. (1978). Visual information processing :artificial intelligence and the sensorium of sight. Technology Review, 81, 2-23.
168. Martin, K.A.C. (2002). Microcircuits in visual cortex. Current Opinion in Neurobiology, 12, 418-425.
169. Maslan, R.H. (2001). The fundamental plan of the retina. Nature Neuroscience, 4, 877-886.
170. Magnussen, S., Spillman, L., Sturzel, F., & Werner, J. (2001). Filling-in of the foveal blue scotoma. Vision Research, 41, 2961-2967.
171. Mendola, ,J.D., Dale, A.M., Fischl, B., Liu, A.K., & tootell, R.B. (1999). The representation of illusory and real contours in human cortical visual areas revealed by functional magnetic resonance imaging. Journal of Neuroscience, 19, 8560-8572.
172. Merigan, W.H., & Maunsell, J.H. (1990). Macaque vision after magnocellular lateral geniculate lesion. Visual Neuroscience, 11, 155-163.
173. Merigan, W.H., Katz, L.M., & Maunsell, J.H. (1990). The effects of parvocellular lateral geniculate lesions on the acuity and the contrast sensitivity of macaque monkeys. Journal of Neuroscience, 11, 994-1001.
174. Miller, K.D., Pinto, D.J., & Simons, D.J. (2001). Processing in layer 4 the neocortical circuit : new insights from visual and somatosensory cortex. Current Opinion in Neurobiology, 11, 488-497.
175. Murakami, I., Komatsu, H., & Kinoshita, M. (1997). Perceptual filling-in at the scotoma following a monocular retinal lesion in the monkey. Visual Neuroscience, 14, 89-101.
176. Motoyoshi, I. (1999). Texture filling-in and texture segregation revealed by transient masking. Vision Research, 39, 1285-1291.
177. Nakayama, K., He, Z.J., & Shimojo, S. (1995). Visual surface representation : A critical link between lower-level and higher-level vision. In Kosslyn, S.M., & Osherson (Eds.) An invitation to cognitive science : visual cognition. Cambridge, MA : M.I.T. Press.
178. Navon, D. (1977). Forest before trees : the precedence og global features in visual perception. Cognitive Psychology, 9, 353-383.
179. Neri, P., & Heeger, D.J. (2002). Spatiotemporal mechanisms for detecting and identifying image features in human vision. Nature Neuroscience, 5, 812-816.
180. Neri, P., Parker, A.J., & Blakemore, C. (1999). Probing the human stereoscopic system with reverse correlation. Nature, 401, 695-698.
181. Nothdurft, H.C. (2002). Attention shifts to salient target. Vision Research, 42, 1287-1306.
182. Nowak, L., & Bullier, J. (1997). The timing of information transfer in the visual system. In Kaas, J.H., Rockland, K.L., & Peters, A.L. (Eds.), Extrastriate visual cortex. New-York : Plenum Pub. Corp.
183. Ogmen, H. (1993). A neural theory of retino-cortical dynamics. Neural Networks, 6, 245-273.
184. Ohtani, Y., Okamura, S., Yoshida, Y., Toyama, K., & Ejima, Y. (2002). Surround suppression in the human visual cortex : an analysis using magnetoencephalography. Vision Research, 42, 1825-1835.
185. Ostergaard, A.L., & Davidoff, J.B. (1985). Some effects of color on naming and recognition of objects. Journal of Experimental Psychology : Learning, Memory and Cognition, 3, 519-526.
186. Palmer, S.E. (1999). Vision science : from photon to phenomenology. Cambridge, MA : MIT Press.
187. Palmer, S.E. (2002). Perceptual organization in vision. In H. Pashler (Ed.), Stevens’handbook of experimental psychology (3rd edition) Volume 1 : sensation and perception. New-York : Wiley and Sons.
188. Paradiso, M.A. (2000). Illuminating the dark corner. Current Biology, 10, r15-r18.
189. Paradiso, M.A. (2002). Perceptual and neuronal correspondence in primary visual cortex. Current Opinion in Neurobiology, 12, 155-161.
190. Paradiso, M.A., & Hahn, S. (1996). Filling-in percepts produced by luminance modulation. Vision Research, 36, 2657-2663.
191. Paradiso, M. & Nakayama, K. (1991). Brightness perception and filling-in. Vision Research, 31, 1221-1236.
192. Pasupathy, A., & Connor, C.E. (1999). Response to contour features in macaque area V4. Journal of Neurophysiology, 82, 2490-2502.
193. Perry, V.H., Oehler, R., & Cowey, A. (1984). Functionnal lamination in the ganglion cell layer of the macaque’s retine. Neuroscience, 25, 217-223.
194. Pessoa, L. & Neumann ; H. (1998). Why does the brain fill-in ? Trends in Cognitive Sciences, 2, 422-424.
195. Peterhans, E., & von der Heydt, R. (1989). Mechanisms of contour perception in monkey visual cortex : contours bridging gaps. Journal of Neuroscience, 9, 1749-1763.
196. Peterhans, E., & von der Heydt, R. (1991). Elements of form perception in monkey prestriate cortex. In Gorea, A., Frégnac, Y., Kapoula, Z., Findlay, J. (Eds.), Representations of vision : trends and tacit assumption in vision research. Cambridge : Cambridge University press.
197. Pettet, M. W. (1999). Shape and contour detection. Vision Research, 39, 551-557.
198. Pettet, M. W., & Gilbert, C.D. (1992). Dynamic changes in receptive-field size in cat primary visual cortex. Proceedings of the National Academy of Science of the UnitedStates of America, 89, 8366-8370.
199. Pettet, M.W., McKee, , & Grywacz, N.M. (1998). Constraints on long-range interactions mediating contour-detection. Vision Research, 38, 865-879.
200. Pinna, B. , Brelstaff, G., & Spillmann, L. (2001). Surface color from boundaries: a new 'watercolor' illusion. Vision Research, 20, 2669-2676.
201. Pinker, S. (1984). Visual cognition : an introduction. In S. Pinker (Ed.), Visual cognition. Cambridge, MA : MIT Press.
202. Pokorny, J., & Smith, V.C. (1997). Psychophysical signatures associated with magnocellular and parvocellular pathway contrast gain. Journal of Optical Society of America, 14, 2477-2486.
203. Polat, U., & Sagi, D. (1993). Lateral interactions between spatial channels suppression and facilitation revealed by lateral masking experiments. Vision Research, 33, 993-999.
204. Polat, U., & Sagi, D. (1994a). Spatial interactions in human vision : from near to far via experience-dependent cascades of connections. Proceedings of the National Academy of Science USA, 91, 1206-1209.
205. Polat, U., & Sagi, D. (1994b). The architecture of perceptual spatial interactions. Vision research, 34, 73-78.
206. Polat, U., & Tyler, C.W. (1999). What pattern the eye sees the best. Vision Research, 39, 887-895.
207. Polat, U., Mizobe, K., Pettet, M.W., Kasamatsu, T., & Norcia, A.M. (1998). Colinear stimuli regulate visual responses depending on cell’s contrast threshold. Nature, 391, 580-584.
208. Purves, D., Shimpi, A., & Lotto, R.B. (1999). An experimental explanation of the Corsweet effect. Journal of Neuroscience, 19, 8542-8551.
209. Ramachandran, V.S. (1992a). Filling in the blind spot. Nature, 356, 115.
210. Ramachandran, V.S. (1992b). Blind spots. Scientific American, 266, 86-91.
211. Ramachandran, V.S. (1993). Filling in gaps in perception : scotomas and phantom limbs. Current Directions in Psychological Science, 2, 56-65.
212. Ramachandran, V.S., & Gregory, R. (1991). Perceptual filling in of artificially induced scotomas in human vision. Nature, 350, 699-702.
213. Ramachandran, V.S., Gregory, R.L., & Aiken, W. (1993). Perceptual fading of visual texture borders. Vision Research, 33, 717-721.
214. Ratliff, E.F. (1965). Mach bands : quantitative stuides on neural networks in the retina. San Franscisco : Holden Day.
215. Ringach, D.L. (2002). Spatial structure and symetry of simple-cell receptive fields in macaque primary visual cortex. Journal of Neurophysiology, 88, 455-463.
216. Rodieck, R.W. (1965). Quantitative analysis of cat ganglion cell response to visual stimuli. Vision Research, 5, 583-601.
217. Rodieck, R.W. (1998). First step in seeing. Sunderland : Sinauer.
218. Roelfsema, P.R., & Singer, W. (1998). Feature article : detecting connectedness. Cerebral Cortex, 8, 358-396.
219. Rogers-Ramachandran, D.C., & Ramachandran, V.S. (1998). Psychophysical evidence for boundary and surface systems in human vision. Vision Research, 38, 71-77.
220. Reich, L.N., Levi, D.M., & Frishman, L.J. (2000). Dynamic random noise shrinks the twinkling aftereffect induced by artificial scotomas. Vision Research, 40, 805 - 816.
221. Rensink, R.A., & Enns, J.T. (1998). Early completion of occluded objects. Vision Research, 38, 2489-2505.
222. Rossi, A.F., & Paradiso, M.A. (1999). Neural correlates of brightness in the responses of neurons in the retina, LGN, and primary visual cortex. Journal of Neuroscience, 19, 6145-6156.
223. Rossi, A.F., Desimone, R., & Ungerleider, L.G. (2001). Contextual modulation in primary visual cortex of macaques. Journal of Neuroscience, 21, 1698-1709.
224. Rossi, A.F., Rittenhouse, C.D., & Paradiso, M.A. (1996). The representation of brigthness in primary visual cortex. Science, 273, 1104-1107.
225. Rovamo, J. & Virsu, V. (1979). An estimation and application of the human cortical magnification factor. Experimental Brain Research, 37, 495-510.
226. Saarinen, J., & Levi, D.M. (2001). Integration of local features into global shape. Vision Research, 41, 1785-1790.
227. Sakaguchi, Y. (2001). Target/surround asymmetry in perceptual filling-in. Vision Research, 41, 2065-2077.
228. Salapatek, P., & Kessen, W. (1966). Visual scanning og triangles by the human newborn. Journal of Experimental Child Psychology, 3, 155-167.
229. Sandusky, A. & Ahumada, A.J. (1970). Contrast in detection with gated noise. Journal of the Acoustical Society of America, 49, 1790-1794.
230. Sceniak, M.P., Ringach, D.L., Hawken, M.J., & Shapley, R. (1999). Contrast’s effect on spatial summation by macaque V1 neurons. Nature Neuroscience, 2, 733-739.
231. Schwartz, S.H. (1999). Visual perception : a clinical orientation. Stamford : Appleton & Lange.
232. Schwartz, E.L., Desimone, R., Albright, T.D., & Gross, C.G. (1983). Shape recognition and inferior temporal neurons. Proceedings of the National Academy of Science USA, 80, 5776-5778.
233. Shepherd, J.W., Davies, G.M., & Ellis, H.D. (1981). Studies of cue saliency. In G. Davies, H. Ellis, &J. Shepherd (Eds.), Perceiving and remenbering faces. London : Academic Press.
234. Sekuler, A.B., & Palmer, S.E. (1992). Perception of partly occluded objects : a microgenetic analysis. Journal of Experimental Psychology : General, 121, 95-111.
235. Sekuler, A., Gold, J.M., Gaspar, C.M., & Bennett, P. (2001). The efficiency of upright and upside-down face for identification. Investigative Ophthalmology and Visual Sciences (Suppl.), 42.
236. Sekuler, A.B., Gold, J.M., Murray, R.F., & Bennett, P.J. (2000). Visual completion of partly occluded objects : insights from behavioral studies. Journal of Neuro-Ophtalmology, 23, 165-168.
237. Sheth, B.R., Sharma, J., Rao, S.C., & Sur, M. (1996). Orientation maps of subjective contours in visual cortex. Science, 274, 2110-2115.
238. Shimojo, S., Kamitani, Y., & Nishida, S. (2001). Afterimage of perceptually filled-in surface. Science, 293, 1677-1680.
239. Shore, D.I., & Enns, J.T. (1997). Shape completion times depends on the size of the occluded region. Journal of Experimental Psychology :Human, Perception and Performance, 23, 980-998.
240. Silito, A.M., & Jones, H.E. (1996). Context dependent interactions and visual processing in V1. Journal of Physiology (Paris), 90, 205-209.
241. Sillito, A.M., Jones, H.E., Gerstein, G.L., & West, D.C. (1994). Feature-linked synchronization of thalamic relay cell firing induced by feedback from the visual cortex. Nature, 369, 479-482.
242. Silveira, L.C.L., & Perry, V.H. (1991). The topography of magnocellular projecting ganglion cells in the primate retina. Neuroscience, 40, 217-237.
243. Singer,W. (1999). Time as coding space ? Current Opinion in Neurobiology, 9, 189-194.
244. Singer,W., & Gray, C.M. (1995). Visual feature integration and the temporal correlation hypothesis. Annual Review of Neuroscience, 18, 555-586.
245. Solomon, J.A. (2002). Noise reveals visual mechanisms of detection and discrimination. Journal of Vision, 2, 105-120.
246. Solomon, J.A., & Pelli, D.G. (1994). The visual filter mediating letter identification. Nature, 369, 395-397.
247. Somers, D.C., Nelson, S.B., & Sur, M. (1995). An emergent model of orientation selectivity in cat visual cortical simpl cells. Journal of Neuroscience, 15, 5448-5465.
248. Spillman, L. (1997). Guest editorial : colour in a larger perspective the rebirth of gestalt psychology. Perception, 26, 1341-1352.
249. Spillman, L., & De Weerd, P. (2003). Surface completion : psychophysics and neurophysiology of texture fading and filling in. In L. Pessoa & P. De Weerd (Eds.), Filling in : from perceptual completion to skill learning. Oxford : Oxford University Press.
250. Spillman, L., & Kurtenbach, A. (1992). Dynamic noise backgrounds facilitate target fading. Vision Research, 32, 1941-1946.
251. Spillman, L., & Werner, J.S. (1996). Long-range interactions in visual perception. Trends Neurosciences, 19, 428-434.
252. Stoper, A.E., & Mansfield, J.G. (1978). Metacontrast and paracontrast suppression of a contourless area. Vision Research, 18, 1669-1674.
253. Stuart, G., McAnally, K.I., & Castles, A. (2001). Can contrast sensitivity functions in dyslexia be explained by inattention rather than a magnocellular deficit ? Vision Research, 41, 3205-3211.
254. Sturzel, F., & Spillman, L. (2001). Texture fading correlates with stimulus salience. Vision Research, 41, 2969-2977.
255. Sugita, Y. (1999). Grouping of image fragments in primary visual cortex. Nature, 401, 269-272.
256. Tjan, B.S., Braje, W.L., Legge, G.E., & Kersten, D. (1995). Human efficiency for recognizing 3-D objects in luminance noise. Vision Research, 35, 3053-3069.
257. Thomas, J. P. & Knoblauch, K. (1998) What do viewers look for when detecting a luminance pulse. Investigative Ophthalmology and Visual Sciences (Suppl.), 39.
258. Thompson, E., Noë, A., & Pessoa, L. (1999). Perceptual completion : a case of study in phenomenology and cognitive science. In Petitot, J. Roy, J-M., Pachoud, B., & Varela, F. (Eds.) Naturalizing phenomenology : issues in contemporary phenomenology and cognitive science. Stanford : Stanford University Press.
259. Thorpe, S., Fize, D., & Marlot, C. (1996). Speed of processing in the human visual system. Nature, 381, 520-522.
260. Tieger, T., & Ganz, L. (1979). Recognition of faces in the presence of two-dimensionnal sinusoidal masks. Perception & Psychophysics, 26, 163-167.
261. Tootell, R.B.H., Hadijkhani, N.K., Vanduffel, W., Liu, A.K., Mendola, J.D., Sereno, M.I., & Dale, A.M. (1998). Functionnal analysis of primary visual cortex (V1) in humans. Proceedings of the National Academy of Science of the UnitedStates of America, 95, 811-817.
262. Turvey, M.T. (1973). On peripheral and central processes in vision : inferences from an information processing analysis of masking with patterned stimuli. Psychological Review, 81, 1-52.
263. Ullman, S. (1984). Visual routines. Cognition, 18, 97-159.
264. Ungerleider, L. G., & Mishkin, M. (1982). Two cortical visual systems. In D. J. Ingle, M. A. Goodale, & R. J. W. Mansfield (Eds.), Analysis of visual behavior (pp. 549-586). Cambridge, MA: MIT Press.
265. Usher, M., & Donnelly, N. (1998). Visual synchrony affects binding and segmentation in perception. Nature, 394, 179-182.
266. Vidnyanszky, Z., Papathomas, T.V., & Julesz, B. (2001). Contextual modulation of orientation discrimination is independent of stimulus processing time. Vision Research, 41, 2813-2817.
267. Von der Heydt, R. (1995). Form analysis in visual cortex. In Gazzaniga M. (Ed.), The cognitive neuroscience. Cambrideg, MA : MIT Press.
268. Von der Heydt, R., & Peterhans, E. (1989). Mechanisms of contour perception in monkey visual cortex: lines of pattern discontinuities. Journal of Neuroscience, 9, 1731-1748.
269. Zucker, S.W., & Davis, S. (1988). Points and endpoints : a size /spacing constraint for dot grouping. Perception, 17, 229-247.
270. Wade, N.J. (1998). A natural history of vision. Cambridge (MA) : MIT Press.
271. Walls, G. (1954). The filling-in process. American Journal of Optometry, 31, 329-340.
272. Wandell, B. (1995). Foudations of vision. Sunderland, MA : Sinauer.
273. Watanabe & Rodieck (1989). Parasol and midget ganglion cells of the primate retina. Journal of Comparative Neurology, 289, 434-454.
274. Watson, A.B. (1979). Probability summation over time. Vision Research, 19, 515-522.
275. Watson, A.B., & Pelli, D. (1983). QUEST : a bayesian adaptative psychometric method. Perception & Psychophysics, 33, 113-120.
276. Watson, A.B. & Rosenholtz, R. (1997). A Rorschach test for visual classification strategies. Investigative Ophthalmology and Visual Sciences (Suppl.), 38.
277. Welchman, A.E., & Harris, J.M. (2003). Is neural filling in necessary to explain the perceptual completion of motion and depth information ? Proceedings of the Royal Society of London, 270, 83-90.
278. Wilson, H.R., Levi, D., Maffei, L., Rovamo, J., & DeValois, R. (1990). In L. Spillman & J.S. Werner (Eds.), The neurophysiological foundations. San Diego : Academic Press.
279. Wörgötter, F., & Eysel, U.T. (2000). Context, state and the receptive fields of striatal cortex cells. Trends in Neuroscience, 23, 497-503.
280. Yen, S. C., & Finkel, L.H. (1998). Extraction of perceptually salient contours by striate cortical networks. Vision Research, 38, 719-741.
281. Ziebell, O., & Nothdurft, H.C. (1999). Cueing and pop-out. Vision Research, 39, 2113-2125.
282. Zipser, K., Lamme, V.A.F., & Schiller, P.H. (1996). Contextual modulation in primary visual cortex. Journal of Neuroscience, 16, 7376-7389.
283. Zucker, S.W., & Davies, S. (1988). Points and endpoints : a size spacing constraint for dot grouping. Perception, 17, 229-247.