Zhou, B., Lapedriza, A., Xiao, J., Torralba, A., & Oliva, A. (2014). Learning deep features for scene recognition using places database. Advances in Neural Information Processing Systems , 27, 487–495.
Слепота к изменениям
Simons, D. J., & Rensink, R. A. (2005). Change blindness: Past, present and future. Trends in Cognitive Science , 9, 16–20.
Категории и черты
Malt, B. C., & Smith, E. E. (1984). Correlated properties in natural categories. Journal of Memory and Language , 23(2), 250.
Tversky, A. (1977). Features of similarity. Psychological Review , 84(4), 327.
Биологическая эволюция
Pagel, M. (1999). Inferring the historical patterns of biological evolution. Nature , 401(6756), 877.
Исправление ошибок в знаниях о мире
Rosling, H., Rönnlund, A. R., & Rosling, O. (2018). Factfulness: Ten reasons we’re wrong about the world – and why things are better than you think . New York, NY: Flatiron Books.
Сцены, действия и события
Hannigan, S. L., & Tippens Reinitz, M. (2001). A demonstration and comparison of two types of inference-based memory errors. Journal of Experimental Psychology: Learning, Memory, and Cognition , 27(4), 931.
Intraub, H. (1997). The representation of visual scenes. Trends in Cognitive Sciences , 1(6), 217–222.
Lampinen, J. M., Copeland, S. M., & Neuschatz, J. S. (2001). Recollections of things schematic: Room schemas revisited. Journal of Experimental Psychology: Learning, Memory, and Cognition , 27(5), 1211.
Owens, J., Bower, G. H., & Black, J. B. (1979). The “soap opera” effect in story recall. Memory & Cognition , 7(3), 185–191.
Tversky, B., & Marsh, E. J. (2000). Biased retellings of events yield biased memories. Cognitive Psychology , 40(1), 1–38.
Гипотезы сильнее восприятия
Bruner, J. S., & Potter, M. C. (1964). Interference in visual recognition. Science , 144(3617), 424–425.
Необъективное восприятие
Hastorf, A. H., & Cantril, H. (1954). They saw a game; a case study. Journal of Abnormal and Social Psychology , 49(1), 129.
Ошибка подтверждения
Ross, L. (1977). The intuitive psychologist and his shortcomings: Distortions in the attribution process. Advances in Experimental Social Psychology , 10, 173–220.
Nisbett, R. E., & Ross, L. (1980). Human inference: Strategies and shortcomings of social judgement . Englewood Cliffs, NJ: Prentice Hall.
Wason, P. C, & Johnson-Laird, P. N. (1972). Psychology of reasoning: Structure and content . Cambridge, MA: Harvard University Press.
Цитата об ошибке подтверждения
Nickerson, R. S. (1998). Confirmation bias: A ubiquitous phenomenon in many guises. Review of General Psychology , 2(2), 211.
Что справедливо для восприятия, справедливо для всех мыслей
Kahneman, D., & Tversky, A. (1996). On the reality of cognitive illusions. Psychological Review , 103, 582–591. http://dx.doi.org/10.1037/0033–295X.103.3.582.
Фейнман о зримости мыслей
Feynman, R. (1988). “What do you care what other people think?”: Further adventures of a curious character . New York, NY: W. W. Norton.
Глава 3. Здесь и сейчас, там и тогда: пространства вокруг нас
Пространственные схемы
Franklin, N., & Tversky, B. (1990). Searching imagined environments. Journal of Experimental Psychology: General , 119(1), 63.
Представление перспектив других людей
Bryant, D. J., & Tversky, B. (1999). Mental representations of perspective and spatial relations from diagrams and models. Journal of Experimental Psychology: Learning, Memory, and Cognition , 25(1), 137.
Bryant, D. J., Tversky, B., & Franklin, N. (1992). Internal and external spatial frameworks for representing described scenes. Journal of Memory and Language , 31(1), 74–98.
Franklin, N., Tversky, B., & Coon, V. (1992). Switching points of view in spatial mental models. Memory & Cognition , 20(5), 507–518.
Tversky, B. (1991). Spatial mental models. Psychology of Learning and Motivation , 27, 109–145.
Tversky, B., Kim, J., & Cohen, A. (1999). Mental models of spatial relations and transformations from language. Advances in Psychology , 128, 239–258.
Вспоминать, а не смотреть
Bryant, D. J., Tversky, B., & Lanca, M. (2001). Retrieving spatial relations from observation and memory. In E. van der Zee & U. Nikanne (Eds.), Conceptual structure and its interfaces with other modules of representation (pp. 116–139). Oxford, England: Oxford
Когда легче принять чужую перспективу, чем собственную
Cavallo, A., Ansuini, C., Capozzi, F., Tversky, B., & Becchio, C. (2017). When far becomes near: Perspective taking induces social remapping of spatial relations. Psychological Science , 28(1), 69–79. doi:10.1177/0956797616672464.
Tversky, B., & Hard, B. M. (2009). Embodied and disembodied cognition: Spatial perspective-taking. Cognition , 110(1), 124–129.
Древнейшие (на сегодня) карты
Clarke, K. C. (2013). What is the world’s oldest map? Cartographic Journal , 50(2), 136–143.
Utrilla, P., Mazo, C., Sopena, M. C., Martínez-Bea, M., & Domingo, R. (2009). A paleolithic map from 13,660 calBP: engraved stone blocks from the Late Magdalenian in Abauntz Cave (Navarra, Spain). Journal of Human Evolution , 57(2), 99–111.
Клетки места и клетки решетки
Fyhn, M., Molden, S., Witter, M. P., Moser, E. I., & Moser, M. B. (2004). Spatial representation in the entorhinal cortex. Science , 305, 1258–1264.
Moser, E. I., Kropff, E., & Moser, M. B. (2008). Place cells, grid cells, and the brain’s spatial representation system. Annual Review of Neuroscience , 31.
O’Keefe, J. (1976). Place units in the hippocampus of the freely moving rat. Experimental Neurology , 51, 78–109.
O’Keefe, J., & Nadel, L. (1978). The hippocampus as a cognitive map . Oxford, England: Clarendon Press.
Аллоцентрическое кодирование пространства (даже младенцами)
Burgess, N. (2006). Spatial memory: How egocentric and allocentric combine. Trends in Cognitive Science , 10(12), 551–557.
Doeller, C. F., Barry, C., & Burgess, N. (2010). Evidence for grid cells in a human memory network. Nature , 463(7281), 657–661.
Ekstrom A., Kahana M. J., Caplan, J. B., Fields, T. A., Isham, E. A., Newman, E. L., & Fried, I. (2003). Cellular networks underlying human spatial navigation. Nature , 425, 184–188.
Jacobs, J., Weidemann, C. T., Miller, J. F., Solway, A., Burke, J. F., Wei, X. X., Suthana, N., … Kahan, M. J. (2013). Direct recordings of grid-like neuronal activity in human spatial navigation. Nature Neuroscience , 16, 1188–1190.
Kaufman, J., & Needham, A. (1999). Objective spatial coding by 6.5-monthold infants in a visual dishabituation task. Developmental Science , 2(4), 432–441.
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