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The Neurobiology of Category Learning

University of California, Santa Barbara, ashby{at}psych.ucsb.edu

Brian J. Spiering

University of California, Santa Barbara

Many recent studies have examined the neural basis of category learning. Behavioral neuroscience results suggest that both the prefrontal cortex and the basal ganglia play important category-learning roles; neurons that develop category-specific firing properties are found in both regions, and lesions to both areas cause category-learning deficits. Similar studies indicate that the inferotemporal cortex does not mediate the learning of new categories. The cognitive neuroscience literature on category learning appears contradictory until the results are partitioned according to the type of category-learning task that was used. Three major tasks can be identified: rule based, information-integration, and prototype-distortion. Recent results are consistent with the hypotheses that (a) learning in rule-based tasks requires working memory and executive attention and is mediated by frontal-striatal circuits, (b) learning in information-integration tasks requires procedural memory and is mediated primarily within the basal ganglia, and (c) learning in prototype-distortion tasks depends on multiple memory systems, including the perceptual representation system.

Key Words: working memory • procedural learning • episodic memory • perceptual representation memory system • multiple category learning systems

Behavioral and Cognitive Neuroscience Reviews, Vol. 3, No. 2, 101-113 (2004)
DOI: 10.1177/1534582304270782


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