Слепая физиология. Удивительная книга про зрение и слух - Сьюзан Р. Барри
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107
H. Wallach and A. O’Leary, “Slope of Regard as a Distance Cue,” Perception & Psychophysics 31 (1982): 145–148; A. M. Norcia et al., “Experience-Expectant Development of Contour Integration Mechanisms in Human Visual Cortex,” Journal of Vision 5 (2005): 116–130.
108
M. von Senden, Space and Sight: The Perception of Space and Shape in the Congenitally Blind Before and After Operation (Glencoe, IL: Free Press, 1960).
109
B. Tversky, Mind in Motion: How Action Shapes Thought (New York: Basic Books, 2019).
110
S. Hochstein and M. Ahissar, “View from the Top: Hierarchies and Reverse Hierarchies in the Visual System,” Neuron 36 (2002): 791–804.
111
Von Senden, Space and Sight; R. L. Gregory and J. G. Wallace, Recovery from Early Blindness: A Case Study, Monograph No. 2 (Cambridge, UK: Experimental Psychology Society, 1963); E. Huber et al., “A Lack of Experience-Dependent Plasticity After More Than a Decade of Recovered Sight,” Psychological Science 26 (2015): 393–401; O. Sacks, “To See and Not See,” in An Anthropologist on Mars: Seven Paradoxical Tales (New York: Alfred A. Knopf, 1995); A. Valvo, Sight Restoration After Long-Term Blindness: The Problems and Behavior Patterns of Visual Rehabilitation (New York: American Federation for the Blind, 1971).
112
O. Sacks, “To See and Not See,” in An Anthropologist on Mars: Seven Paradoxical Tales (New York: Alfred A. Knopf, 1995).
113
R. Kurson, Crashing Through: A True Story of Risk, Adventure, and the Man Who Dared to See (New York: Random House, 2007).
114
M. E. Arterberry and P. J. Kellman, Development of Perception in Infancy: The Cradle of Knowledge Revisited (New York: Oxford University Press, 2016).
115
Arterberry and Kellman, Development of Perception in Infancy; K. J. Kellman and E. S. Spelke, “Perception of Partly Occluded Objects in Infancy,” Cognitive Psychology 15 (1983): 483–524.
116
M. Wertheimer, “Laws of Organization in Perceptual Forms,” in A Source Book of Gestalt Psychology, ed. W. Ellis (London: Routledge & Kegan Paul, 1938), 71–88. Первая публикация: “Untersuchungen zur Lehre von der Gestalt II,” Psycologische Forschung 4 (1923): 301–350.
117
B. Tversky, Mind in Motion: How Action Shapes Thought (New York: Basic Books, 2019).
118
J. J. Gibson, The Ecological Approach to Visual Perception (Hillsdale, NJ: Lawrence Erlbaum Associates, Publishers, 1986).
119
A. Michotte, The Perception of Causality (New York: Basic Books, 1963).
120
Arterberry and Kellman, Development of Perception in Infancy.
121
Gibson, The Ecological Approach to Visual Perception; R. Arnheim, Visual Thinking (Berkeley: University of California Press, 1969); H. Wallach and D. N. O’Connell, “The Kinetic Depth Effect,” Journal of Experimental Psychology 45 (1953): 205–217; E. J. Ward, L. Isik, and M. M. Chun, “General Transformations of Object Representations in Human Visual Cortex,” Journal of Neuroscience 38 (2018): 8526–8537. Философ Альва Ноэ утверждает, что наше восприятие, наше понимание того, что мы видим, не дается нам целиком, но приходит через движение и активное исследование мира, и даже через такие малозаметные действия, как движения наших глаз. A. Noë, Action in Perception (Cambridge, MA: MIT Press, 2004).
122
Kurson, Crashing Through; I. Fine et al., “Long-Term Deprivation Affects Visual Perception and Cortex,” Nature Neuroscience 6 (2003): 915–916; Y. Ostrovsky et al., “Visual Parsing After Recovery from Blindness,” Psychological Science 20 (2009): 1484–1491.
123
P. J. Kellman, “Perception of Three-Dimensional Form by Human Infants,” Perception & Psychophysics 36 (1985): 353–358.
124
S. Grossberg, “The Resonant Brain: How Attentive Conscious Seeing Regulates Action Sequences That Interact with Attentive Cognitive Learning, Recognition, and Prediction,” Attention, Perception & Psychophysics 81 (2019): 2237–2264.
125
C. Von Hofsten, “Predictive Reaching for Moving Objects by Human Infants,” Journal of Experimental Child Psychology 30 (1980): 369–382.
126
M. Dadarlat and M. P. Stryker, “Locomotion Enhances Neural Encoding of Visual Stimuli in Mouse V1,” Journal of Neuroscience 37 (2017): 3764–3775.
127
T. Bullock et al., “Acute Exercise Modulates Feature-Selective Responses in Human Cortex,” Journal of Cognitive Neuroscience 29 (2017): 605–618.
128
M. Kaneko, Y. Fu, and M. P. Stryker, “Locomotion Induces Stimulus-Specific Response Enhancement in Adult Visual Cortex,” Journal of Neuroscience 37 (2017): 3532–3543; M. Kaneko and M. P. Stryker, “Sensory Experience During Locomotion Promotes Recovery of Function in Adult Visual Cortex,” eLife (2014): 3e02798; C. Lunghi and A. Sale, “A Cycling Lane for Brain Rewiring,” Current Biology 25 (2015): R1122–R1123.
129
Ostrovsky et al., “Visual Parsing After Recovery from Blindness”; P. Sinha, “Once Blind and Now They See: Surgery in Blind Children from India Allows Them to See for the First Time and Reveals How Vision Works in the Brain,” Scientific American 309 (2013): 48–55.
130
E. Nawrot, S. I. Mayo, and M. Nawrot, “The Development of Depth Perception from Motion Parallax in Infancy,” Attention, Perception & Psychophysics 71 (2009): 194–199; E. Nawrot and M. Nawrot, “The Role of Eye Movements in Depth from Motion Parallax During Infancy,” Journal of Vision 13 (2013): 1–13.
131
J. J. Gibson, The Ecological Approach to Visual Perception (Hillsdale, NJ: Lawrence Erlbaum Associates, Publishers, 1986).
132
S. L. Strong et al., “Differential Processing of the Direction and Focus of Expansion of Optic Flow Stimuli in Areas MST and V3A of the Human Visual Cortex,” Journal of Neurophysiology 117 (2017): 2209–2217; R. H. Wurtz and C. J. Duffy, “Neural Correlates of Optic Flow Stimulation,” Annals