Abstract
A behavioral manifestation of perceptual expertise is the shift in recognition downward toward the subordinate level. Here, a familiarization-novelty preference procedure was used to determine whether 6- to 7-month-old infants could be induced to form category representations for cats and dogs at the subordinate level. In Experiment 1, the infants succeeded in forming subordinate-level category representations for beagle dogs and Siamese cats, but only when provided with previous experience on a subordinate-level category-formation task from within the same basic-level category (i.e., Saint Bernard dogs or tabby cats). When the prior category-formation task involved a different basic-level category, subsequent subordinate-level category learning was not in evidence. The preferences in Experiment 1 were shown in Experiments 2 and 3 not to be attributable to a priori preference or within-category discrimination failure. The findings suggest that within-basic-level categorization experience can facilitate the formation of subordinate-level category representations in the first half-year of life.
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Ashby, F. G., &Spiering, B. J. (2004). The neurobiology of category learning.Behavioral & Cognitive Neuroscience Reviews,3, 101–113.
Behl-Chadha, G. (1996). Basic-level and superordinate-like categorical representations in early infancy.Cognition,60, 105–141.
Eimas, P. D., &Quinn, P. C. (1994). Studies on the formation of perceptually based basic-level categories in young infants.Child Development,65, 903–917.
Fagan, J. F. (1970). Memory in the infant.Journal of Experimental Child Psychology,9, 217–226.
Freedman, D. J., Riesenhuber, M., Poggio, T., &Miller, E. K. (2001). Categorical representation of visual stimuli in the primate prefrontal cortex.Science,291, 312–316.
French, R. M., Mareschal, D., Mermillod, M., &Quinn, P. C. (2004). The role of bottom-up processing in perceptual categorization by 3- to 4-month-old infants: Simulations and data.Journal of Experimental Psychology: General,133, 382–397.
Gauthier, I., &Nelson, C. A. (2001). The development of face expertise.Current Opinion in Neurobiology,11, 219–224.
Gauthier, I., &Tarr, M. J. (1997). Becoming a “Greeble” expert: Exploring mechanisms for face recognition.Vision Research,37, 1673–1681.
Gauthier, I., &Tarr, M. J. (2002). Unraveling mechanisms for expert object recognition: Bridging brain activity and behavior.Journal of Experimental Psychology: Human Perception & Performance,28, 431–446.
Hasegawa, I., &Miyashita, Y. (2002). Categorizing the world: Expert neurons look into key features.Nature Neuroscience,5, 90–91.
Johansen, M. K., &Palmeri, T. J. (2002). Are there representational shifts during category learning?Cognitive Psychology,45, 482–553.
Kelly, D. J., Liu, S., Ge, L., Quinn, P. C., Slater, A. M., Lee, K., et al. (2007). Cross-race preferences for same-race faces extend beyond the African versus Caucasian contrast in 3-month-old infants.Infancy,11, 87–95.
Kelly, D. J., Quinn, P. C., Slater, A. M., Lee, K., Gibson, A., Smith, M., et al. (2005).Fast Track Report: Three-month-olds, but not newborns, prefer own-race faces.Developmental Science,8, F31-F36.
Miller, E. K., Freedman, D. J., &Wallis, J. D. (2002). The prefrontal cortex: Categories, concepts, and cognition.Philosophical Transactions: Biological Sciences,357, 1123–1136.
Oakes, L. M., Coppage, D. J., &Dingel, A. (1997). By land and by sea: The role of perceptual similarity in infants’ categorization of animals.Developmental Psychology,33, 396–407.
Palmeri, T. J., Wong, A. C.-N., &Gauthier, I. (2004). Computational approaches to the development of perceptual expertise.Trends in Cognitive Sciences,8, 378–386.
Pascalis, O., de Haan, M., &Nelson, C. A. (2002). Is face processing species-specific during the first year of life?Science,296, 1321–1323.
Pascalis, O., Scott, L. S., Kelly, D. J., Shannon, R. W., Nicholson, E., Coleman, M., &Nelson, C. A. (2005). Plasticity of face processing in infancy.Proceedings of the National Academy of Sciences,102, 5297–5300.
Quinn, P. C. (2002). Early categorization: A new synthesis. In U. Goswami (Ed.),Blackwell handbook of childhood cognitive development (pp. 84–101). Oxford: Blackwell.
Quinn, P. C. (2004). Development of subordinate-level categorization in 3- to 7-month-old infants.Child Development,75, 886–899.
Quinn, P. C. (2005). Young infants’ categorization of humans versus nonhuman animals: Roles for knowledge access and perceptual process. In L. Gershkoff-Stowe & D. Rakison (Eds.),Building object categories in developmental time: 32nd Carnegie Symposium on Cognition (Vol. 32, pp. 107–130). Mahwah, NJ: Erlbaum.
Quinn, P. C., &Eimas, P. D. (1998). Evidence for a global categorical representation for humans by young infants.Journal of Experimental Child Psychology,69, 151–174.
Quinn, P. C., Eimas, P. D., &Rosenkrantz, S. L. (1993). Evidence for representations of perceptually similar natural categories by 3- and 4-month-old infants.Perception,22, 463–475.
Quinn, P. C., Eimas, P. D., &Tarr, M. J. (2001). Perceptual categorization of cat and dog silhouettes by 3- to 4-month-old infants.Journal of Experimental Child Psychology,79, 78–94.
Quinn, P. C., &Johnson, M. H. (2000). Global-before-basic object categorization in connectionist networks and 2-month-old infants.Infancy,1, 31–46.
Quinn, P. C., &Schyns, P. G. (2003). What goes up may come down: Perceptual process and knowledge access in the organization of complex visual patterns by young infants.Cognitive Science,27, 923–935.
Quinn, P. C., Schyns, P. G., &Goldstone, R. L. (2006). The interplay between perceptual organization and categorization in the representation of complex visual patterns by young infants.Journal of Experimental Child Psychology,95, 117–127.
Quinn, P. C., Westerlund, A., &Nelson, C. A. (2006). Neural markers of categorization in 6-month-old infants.Psychological Science,17, 59–66.
Quinn, P. C., Yahr, J., Kuhn, A., Slater, A. M., &Pascalis, O. (2002). Representation of the gender of human faces by infants: A preference for female.Perception,31, 1109–1121.
Robbins, R., &McKone, E. (2007). No face-like processing for objects-of-expertise in three behavioural tasks.Cognition,103, 34–79.
Rosch, E., Mervis, C. B., Gray, W. D., Johnson, D. M., &Boyes-Braem, P. (1976). Basic objects in natural categories.Cognitive Psychology,8, 382–439.
Sangrigoli, S., &de Schonen, S. (2004). Recognition of own-race and other-race faces by three-month old infants.Journal of Child Psychology & Psychiatry,45, 1–9.
Schyns, P. G., Goldstone, R. L., &Thibaut, J. P. (1998). The development of features in object concepts.Behavioral & Brain Sciences,21, 1–54.
Scott, L., Tanaka, J. W., Sheinberg, D., &Curran, T. (2006). A reevaluation of the electrophysiological correlates of expert object processing.Journal of Cognitive Neuroscience,18, 1453–1465.
Sigala, N., &Logothetis, N. K. (2002). Visual categorization shapes feature selectivity in the primate temporal cortex.Nature,415, 318–320.
Smith, J. D., &Minda, J. P. (1998). Prototypes in the mist: The early epochs of category learning.Journal of Experimental Psychology: Learning, Memory, & Cognition,24, 1411–1430.
Tanaka, J. W. (2001). The entry point of face recognition: Evidence for face expertise.Journal of Experimental Psychology: General,130, 534–543.
Tanaka, J. W. (2004). Object categorization, expertise, and neural plasticity. In M. Gazzaniga (Ed.),The cognitive neurosciences (3rd ed., pp. 877–887). Cambridge, MA: MIT Press.
Tanaka, J. W., Curran, T., Porterfield, A. L., &Collins, D. (2006). Activation of preexisting and acquired face representations: The N250 event-related potential as an index of face familiarity.Journal of Cognitive Neuroscience,18, 1488–1497.
Tanaka, J. W., Curran, T., &Sheinberg, D. L. (2005). The training and transfer of real-world perceptual expertise.Psychological Science,16, 145–151.
Tanaka, J. W., &Taylor, M. (1991). Object categories and expertise: Is the basic level in the eye of the beholder?Cognitive Psychology,23, 457–482.
Thomas, E., Van Hulle, M. M., &Vogels, R. (2001). Encoding of categories by noncategory-specific neurons in the inferior temporal cortex.Journal of Cognitive Neuroscience,13, 190–200.
Vogels, R. (1999). Categorization of complex visual images by rhesus monkeys: Part 2, Single-cell study.European Journal of Neuroscience,11, 1239–1255.
Younger, B. A. (1985). The segregation of items into categories by tenmonth-old infants.Child Development,61, 614–620.
Younger, B. A., &Fearing, D. D. (1999). Parsing items into separate categories: Developmental change in infant categorization.Child Development,70, 291–303.
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This research was supported by NIH Grants HD-42451 and HD-46526. Additional research support was provided by grants from the James S. McDonnell Foundation (Perceptual Expertise Network) and the National Science and Engineering Research Council of Canada.
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Quinn, P.C., Tanaka, J.W. Early development of perceptual expertise: Within-basic-level categorization experience facilitates the formation of subordinate-level category representations in 6- to 7-month-old infants. Memory & Cognition 35, 1422–1431 (2007). https://doi.org/10.3758/BF03193612
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DOI: https://doi.org/10.3758/BF03193612