5. Мозг постоянно изменяется
Atkeson, Christopher G., et al. ‘Using humanoid robots to study human behavior’, IEЕЕ Intelligent Systems and Their Applications 15.4 (2000): 46–56
Bao, Shaowen, Vincent T. Chan and Michael M.. Merzenich. ‘Cortical remodelling induced by activity of ventral tegmental dopamine neurons’, Nature 412.6842 (2001): 79–83
Changizi, Mark A., and Shinsuke Shimojo. ‘Character complexity and redundancy in writing systems over human history’, Proceedings of the Royal Society of London B: Biological Sciences 272.1560 (2005): 267–75
Chase, William G., and Herbert A. Simon. ‘Perception in chess’, Cognitive Psychology 4.1 (1.973): 55–81
Cohen, Laurent, et al. ‘Reading normal and degraded words: contribution of the dorsal and ventral visual pathways’, Neuroimage 40.1 (2008): 353–66
Conway, Bevil R., and Doris Y. Tsao, ‘Color-tuned neurons are spatially clustered according to color preference within alert macaque posterior inferior temporal cortex’, Proceedings of the National Academy of Sciences 106.42 (2009): 18034–9
Dehaene, Stanislas. Reading in the Brain: The New Science of How We Read. Penguin Books, 2009
Dehaene, Stanislas, et al. ‘The neural code for written words: a proposal’, Trends in Cognitive Sciences 9.7 (2005): 335–41.
Deutsch, Diana, et al. ‘bsolute pitch among American and Chinese conservatory students: prevalence differences, and evidence for a speech-related critical period’, The journal of the Acoustical Society of America 119.2 (2006): 719–22
Ericsson, K. Anders, Ralf T. Krampe and Clemens Tesch-Romer. ‘The role of deliberate practice in the acquisition of expert performance’, Psychological Review 100.3 (1993): 363
Fehr, Ernst, and Urs Fisehbacher. ‘The nature of human altruism’, Nature 425.6960 (2003): 785–91
Field, David)., Anthony Hayes and Robert F. Hess. ‘Contour integration by the human visual system: evidence for a local «association field’, Vision Research 33.2 (1993): 173–93
Gilbert, Charles D., and Mariano Sigman. ‘Brain states: top-down influences in sensory processing’, Neuron 54.5 (2007): 677–96
Gilbert, Charles D., Mariano Sigman and Roy E. Crist. ‘The neural basis of perceptual learning’, Neuron 31.5 (2001): 681–97
Goldin, Andrea P., et al. ‘From ancient Greece to modern education: universality and lack of generalization of the Socratic dialogue’, Mind, Brain, and Education 5.4 (201.1): 180–85
Goodale, Melvyn A., and A. David Milner. ‘Separate visual pathways far perception and action’, Trends in Neurosciences 15.1. (1992): 20–25
Helper, Lisa, et al. ‘The teaching and the learning brain: a cortical hemodynamic marker of teacher-student interactions in the Socratic dialog’, International journal of Educational Research 59 (2013): 1–10
Hubel, David H., and Torsten N. Wiesel. ‘Receptive fields, binocular interaction and functional architecture in the cat’s visual cortex’, The journal of Physiology 1.60.1. (1962): 1.06–54
Lee, Tai Sing, and David Mumiord. ‘Hierarchical Bayesian inference in the visual cortex’, Journal of the Optical Society of America A 20.7 (2003): 1434–48
Levitin, Daniel J., and Susan E. Rogers. ‘Absolute pitch: perception, coding, and controversies’. Trends in Cognitive Sciences 9.1 (2005): 26–33
Maguire, Eleanor A., et al. /Routes to remembering: the brains behind superior memory/. Nature Neuroscience 6.1. (2003): 90–95
McNamara, Danielle S., et al. ‘Are good texts always better? Interactions of text coherence, background knowledge, and levels of understanding in learning from text’, Cognition and Instruction 1.4.1. (1996): 1–43
O’Regan, J. Kevin. ‘Eye movements and reading’, Reviews of Oculomotor Research 4 (1990): 395
Shatz, Carla J. ‘Emergence of order in visual system development’, Proceedings of the National Academy of Sciences 93.2 (1996): 602–8
Sigman, M., and C. D. Gilbert. ‘Learning to find a shape’, Nature Neuroscience 3.3 (2000): 264–9
Sigman, Mariano, and Stanislas Dehaene. ‘Brain mechanisms of serial and parallel processing during dual-task performance’, Journal of Neuroscience 28.30 (2008): 7585–98
Sigman, Mariano, et al. ‘On a common circle: natural scenes and Gestalt rides’, Proceedings of the National Academy of Sciences 98.4 (2001): 1935–40
Sigman, Mariano, et al. ‘Top-down reorganization of activity in the visual pathway after learning a shape identification task’, Neuron 46.5 (2005): 823–35
Squire, Larry R. ‘Memory and the hippocampus: a synthesis from findings with rats, monkeys, and humans’, Psychological Review 99.2 (1992): 195
Thomas, Alexander, and Stella Chess. Temperament and Development: Brunner/Mazel, 1977
Todorov, Emanuel, and Michael I. Jordan. ‘Optimal feedback control as a theory of motor coordination’, Nature Neuroscience 5.11 (2002): 1226–35
Treisman, Anne M., and Garry Gelade. ‘A feature-integration theory of attention’, Cognitive Psychology 12.1 (1980): 97–136
Vinckier, Fabien, et al. ‘«What» and «where» in word reading: ventral coding of written words revealed by parietal atrophy’, Journal of Cognitive Neuroscience 18.1.2 (2006); 1998–2012
Vinckier, Fabien, et al. ‘Hierarchical coding of letter strings in the ventral stream: dissecting the inner organization of the visual word-form system’, Neuron 55.1 (2007): 143–56
Zylberberg, Ariel, et, al. ‘The brains router: a cortical network model of serial processing in the primate brain’, PLoS Comput Biol 6.4 (2010): e1000765