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Brain Localisation of Memory Chunks in Chessplayers
Chess experts store domain-specific representations in their long-term memory; due to the activation of such representations, they perform with high accuracy in tasks that require the maintenance of previously seen information. Chunk-based theories of expertise (chunking theory: Chase & Simon, 1973; template theory: Gobet & Simon, 1996) state that expertise is acquired mainly by the acquisition and storage in long-term memory of familiar chunks that allow quick recognition. We tested some predictions of these theories by using fMRI while chessplayers performed a recognition memory task. These theories predict that chessplayers access long-term memory chunks of domain-specific information, which are presumably stored in the temporal lobes. We also predicted that the recognition memory tasks would activate working memory areas in the frontal and parietal lobes. These predictions were supported by the data
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Expertise in chess
This chapter provides an overview of research into chess expertise. After an historical background and a brief description of the game and the rating system, it discusses the information processes enabling players to choose good moves, and in particular the trade-offs between knowledge and search. Other topics include blindfold chess, talent, and the role of deliberate practice and tournament experience
Structure and stimulus familiarity: A study of memory in chess-players with functional magnetic resonance imaging.
A grandmaster and an international chess master were compared with a group of novices
in a memory task with chess and non-chess stimuli, varying the structure and familiarity
of the stimuli, while functional magnetic resonance images were acquired. The pattern
of brain activity in the masters was different from that of the novices. Masters showed
no differences in brain activity when different degrees of structure and familiarity where
compared; however, novices did show differences in brain activity in such contrasts. The
most important differences were found in the contrast of stimulus familiarity with chess
positions. In this contrast, there was an extended brain activity in bilateral frontal areas
such as the anterior cingulate and the superior, middle, and inferior frontal gyri; furthermore,
posterior areas, such as posterior cingulate and cerebellum, showed great bilateral activation.
These results strengthen the hypothesis that when performing a domain-specific task,
experts activate different brain systems from that of novices. The use of the expertsversus-
novices paradigm in brain imaging contributes towards the search for brain systems
involved in cognitive processes
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