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Chunking improves symbolic sequence processing and relies on working memory gating mechanisms.

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Solopchuk, Oleg [UCL] Alamia, Andrea [UCL] Olivier, Etienne [UCL] Zenon, Alexandre [UCL]

Chunking, namely the grouping of sequence elements in clusters, is ubiquitous during sequence processing, but its impact on performance remains debated. Here, we found that participants who adopted a consistent chunking strategy during symbolic sequence learning showed a greater improvement of their performance and a larger decrease in cognitive workload over time. Stronger reliance on chunking was also associated with higher scores in a WM updating task, suggesting the contribution of WM gating mechanisms to sequence chunking. Altogether, these results indicate that chunking is a cost-saving strategy that enhances effectiveness of symbolic sequence learning.

Document type Article de périodique (Journal article) – Article de recherche
Access type Accès libre
Publication date 2016
Language Anglais
Journal information "Learning & Memory" - Vol. 23, p. 108-112 (2016)
Peer reviewed yes
Publisher Cold Spring Harbor Laboratory Press ((United States) Cold Spring Harbor, NY)
issn 1072-0502
e-issn 1549-5485
Publication status Publié
Affiliation UCL - SSS/IONS/COSY - Systems & cognitive Neuroscience
Keywords Chunking ; clusters ; memory ; learning ; cognitive workload
Links
Bibliographic reference Solopchuk, Oleg ; Alamia, Andrea ; Olivier, Etienne ; Zenon, Alexandre. Chunking improves symbolic sequence processing and relies on working memory gating mechanisms.. In: Learning & Memory, Vol. 23, p. 108-112 (2016)
Permanent URL http://hdl.handle.net/2078.1/171641