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Referencias:

• Ashby, F.G., Prinzmetal, W., Ivry, R., Maddox, W.T., A formal theory of feature binding in object perception (1996) Psychological Review, 103, pp. 165-192
• Bachmann, T., (1994) Psychophysiology of visual masking: The fine structure of conscious experience, , Commack, NY: Nova Science
• Bakin, J.S., Nakayama, K., Gilbert, C.D., Visual responses in monkey areas V1 and V2 to three-dimensional surface configurations (2000) Journal of Neuroscience, 20, pp. 8188-8198
• Breitmeyer, B.G., (1984) Visual masking: An integrative approach, , New York: Oxford University Press
• Bridgeman, B., Metacontrast and lateral inhibition (1971) Psychological Review, 78, pp. 528-539
• Coppola, D.M., Purves, H.R., McCoy, A.N., Purves, D., The distribution of oriented contours in the real world (1998) Proceedings of the National Academy of Sciences of the United States of America, 95, pp. 4002-4006
• Di Lollo, V., Enns, J.T., Rensink, R.A., Competition for consciousness among visual events: The psychophysics of reentrant visual processes (2000) Journal of Experimental Psychology: General, 129, pp. 481-507
• Didner, R., Sperling, G., Perceptual delay: A consequence of metacontrast and apparent motion (1980) Journal of Experimental Psychology: Human Perception and Performance, 6, pp. 235-243
• Enns, J.T., Visual binding in the standing wave illusion (2002) Psychonomic Bulletin & Review, 9, pp. 489-496
• Ganz, L., Temporal factors in visual perception (1975) Handbook of perception, pp. 169-231. , E. C. Carterette & M. P. Friedman Eds, New York: Academic Press
• Gilbert, C.D., Sigman, M., Brain states: Top-down influences in sensory processing (2007) Neuron, 54, pp. 677-696
• Gilbert, C.D., Sigman, M., Crist, R.E., The neural basis of perceptual learning (2001) Neuron, 31, pp. 681-697
• Hazeltine, R.E., Prinzmetal, W., Elliott, W., If it's not there, where is it? Locating illusory, conjunctions (1997) Journal of Experimental Psychology: Human Perception and Performance, 23, pp. 263-277
• He, S., Cavanagh, P., Intriligator, J., Attentional resolution and the locus of visual awareness (1996) Nature, 383, pp. 334-337
• Helmholtz, H.V., (1867) Handbuch der physiologischen Optik, , Leipzig: Leopold Voss
• Herzog, M.H., Fable, M., Koch, C., Spatial aspects of object formation revealed by a new illusion, shine-through (2001) Vision Research, 41, pp. 2325-2335
• Herzog, M.H., Koch, C., Seeing properties of an invisible object: Feature inheritance and shine-through (2001) Proceedings of the National Academy of Sciences of the United States of America, 98, pp. 4271-4275
• Herzog, M.H., Koch, C., Fahle, M., Shine-through: Temporal aspects (2001) Vision Research, 41, pp. 2337-2346
• Howe, C., Purves, D., (2005) Perceiving geometry: Geometrical illusions explained in terms of natural scene statistics, , New York: Springer
• Jehee, J.F., Roelfsema, P.R., Deco, G., Murre, J.M., Lamme, V.A., Interactions between higher and lower visual areas improve shape selectivity of higher level neurons-explaining crowding phenomena (2007) Brain Research, 1157, pp. 167-176
• Lappe, M., Awater, H., Krekelberg, B., Postsaccadic visual references generate presaccadic compression of space (2000) Nature, 403, pp. 892-895
• Maddox, W.T., Prinzmetal, W., Ivry, R.B., Ashby, F.G., A probabilistic multidimensional model of location information (1994) Psychological Research, 56, pp. 66-77
• Mewhort, D.J., Huntley, M.F., Duff-Fraser, H., Masking disrupts recovery of location information (1993) Perception & Psychophysics, 54, pp. 759-762
• Morrone, M.C., Ross, J., Burr, D., Saccadic eye movements cause compression of time as well as space (2005) Nature Neuroscience, 8, pp. 950-954
• Motter, B.C., Focal attention produces spatially selective processing in visual cortical areas VI, V2, and V4 in the presence of competing stimuli (1993) Journal of Neurophysiology, 70, pp. 909-919
• Nakayama, K., Shimojo, S., Towards a neural understanding of visual surface representation (1990) Cold Spring Harbor Symposia on Quantitative Biology, 55, pp. 911-924
• Nakayama, K., Shimojo, S., Experiencing and perceiving visual surfaces (1992) Science, 257, pp. 1357-1363
• Nisbett, R., Wilson, T., Telling more than we can know: Verbal reports on mental processes (1977) Psychological Review, 84, pp. 231-259
• Prinzmetal, W., Principles of feature integration in visual perception (1981) Perception & Psychophysics, 30, pp. 330-340
• Prinzmetal, W., Visual feature integration in a world of objects (1995) Current Directions in Psychological Science, 4, pp. 90-94
• Prinzmetal, W., Presti, D.E., Posner, M.I., Does attention affect visual feature integration? (1986) Journal of Experimental Psychology: Human Perception and Performance, 12, pp. 361-369
• Ross, J., Morrone, M.C., Goldberg, M.E., Burr, D.C., Changes in visual perception at the time of saccades (2001) Trends in Neurosciences, 24, pp. 113-121
• Sheliga, B.M., Riggio, L., Craighero, L., Rizzolatti, G., Spatial attention-determined modifications in saccade trajectories (1995) Neuroreport, 6, pp. 585-588
• Sheliga, B.M., Riggio, L., Rizzolatti, G., Orienting of attention and eye movements (1994) Experimental Brain Research, 98, pp. 507-522
• Sheliga, B.M., Riggio, L., Rizzolatti, G., Spatial attention and eye movements (1995) Experimental Brain Research, 105, pp. 261-275
• Shimojo, S., Karnitani, Y., Nishida, S., After-image of perceptually filled-in surface (2001) Science, 293, pp. 1677-1680
• Sigman, M., Cecchi, G.A., Gilbert, C.D., Magnasco, M.O., On a common circle: Natural scenes and Gestalt rules (2001) Proceedings of the National of Academy of Sciences of the United States on America, 98, pp. 1935-1940
• Sigman, M., Gilbert, C.D., Learning to find a shape (2000) Nature Neuroscience, 3, pp. 264-269
• Sigman, M., Pan, H., Yang, Y., Stem, E., Silbersweig, D., Gilbert, C.D., Top-down reorganization of activity in the visual pathway after learning a shape identification task (2005) Neuron, 46, pp. 823-835
• Suzuki, S., Cavanagh, P., Focused attention distorts visual space: An attentional repulsion effect (1997) Journal of Experimental Psychology: Human Perception and Performance, 23, pp. 443-463
• Suzuki, S., Cavanagh, P., A shape-contrast effect for briefly presented stimuli (1998) Journal of Experimental Psychology: Human Perception and Performance, 24, pp. 1315-1341
• Toet, A., Levi, D.M., The two-dimensional shape of spatial interaction zones in the parafovea (1992) Vision Research, 32, pp. 1349-1357
• Treisman, A., Schmidt, H., Illusory conjunctions in the perception of objects (1982) Cognitive Psychology, 14, pp. 107-141
• Tripathy, S.P., Cavanagh, P., The extent of crowding in peripheral vision does not scale with target size (2002) Vision Research, 42, pp. 2357-2369
• Watanabe, K., Nijhawan, R., Shimojo, S., Shifts in perceived position of flashed stimuli by illusory object motion (2002) Vision Research, 42, pp. 2645-2650
• Wertheimer, M., (1938) Laws of organization in perceptual forms, , London: Harcourt, Brace & Jovanovitch
• Wolford, G., Shum, K.H., Evidence for feature perturbations (1980) Perception & Psychophysics, 27, pp. 409-420

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