Abstract
A continuum between purely isolated and purely interrelated concepts is described. Along this continuum, a concept is interrelated to the extent that it is influenced by other concepts. Methods for manipulating and identifying a concept’s degree of interrelatedness are introduced. Relatively isolated concepts can be empirically identified by a relatively large use of nondiagnostic features, and by better categorization performance for a concept’s prototype than for a caricature of the concept. Relatively interrelated concepts can be identified by minimal use of nondiagnostic features, and by better categorization performance for a caricature than for a prototype. A concept is likely to be relatively isolated when subjects are instructed to create images for their concepts rather than find discriminating features, when concepts are given unrelated labels, and when the categories that are displayed alternate rarely between trials. The entire set of manipulations and measurements supports a graded distinction between isolated and interrelated concepts. The distinction is applied to current models of category learning, and a connectionist framework for interpreting the empirical results is presented.
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Experiments 1 and 2 were presented at the Thirteenth Annual Conference of the Cognitive Science Society, University of Chicago, August 1991. Experiment 4 was presented at the Fifteenth Annual Conference of the Cognitive Science Society, University of Colorado, June 1993.
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Goldstone, R.L. Isolated and interrelated concepts. Mem Cogn 24, 608–628 (1996). https://doi.org/10.3758/BF03201087
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DOI: https://doi.org/10.3758/BF03201087