Working memory for movement rhythms given spatial relevance: Effects of sequence length and maintenance delay
Chiou S-C, Schack T (2022)
Visual Cognition 30(9): 597-616.
Zeitschriftenaufsatz
| Veröffentlicht | Englisch
Autor*in
Einrichtung
Abstract / Bemerkung
Temporal information is an essential component of human movements. However, it is still unclear how the temporal information is extracted from complex whole-body movements through observation and how it is encoded and retained in working memory. In the current study, we investigated how the sequence length and maintenance delay influence working memory for movement rhythms (i.e., temporal structures of movement sequences) after considering the task-relevance of the corresponding spatial information and the sensitivity difference between spatial and temporal processing in visual perception. We found that the sequence length – in the sense of information load more than temporal duration – may act as the first bottleneck in the processing of movement rhythms, deciding whether temporal information can be encoded as individual units in high precision or it might be encoded as an ensemble “whole” in relatively low precision. In addition, the maintenance delay may act as the second bottleneck, determining to what extent the encoded information can be retained in memory.
Erscheinungsjahr
2022
Zeitschriftentitel
Visual Cognition
Band
30
Ausgabe
9
Seite(n)
597-616
Urheberrecht / Lizenzen
ISSN
1350-6285
eISSN
1464-0716
Page URI
https://pub.uni-bielefeld.de/record/2967948
Zitieren
Chiou S-C, Schack T. Working memory for movement rhythms given spatial relevance: Effects of sequence length and maintenance delay. Visual Cognition. 2022;30(9):597-616.
Chiou, S. - C., & Schack, T. (2022). Working memory for movement rhythms given spatial relevance: Effects of sequence length and maintenance delay. Visual Cognition, 30(9), 597-616. https://doi.org/10.1080/13506285.2022.2162173
Chiou, Shiau-Chuen, and Schack, Thomas. 2022. “Working memory for movement rhythms given spatial relevance: Effects of sequence length and maintenance delay”. Visual Cognition 30 (9): 597-616.
Chiou, S. - C., and Schack, T. (2022). Working memory for movement rhythms given spatial relevance: Effects of sequence length and maintenance delay. Visual Cognition 30, 597-616.
Chiou, S.-C., & Schack, T., 2022. Working memory for movement rhythms given spatial relevance: Effects of sequence length and maintenance delay. Visual Cognition, 30(9), p 597-616.
S.-C. Chiou and T. Schack, “Working memory for movement rhythms given spatial relevance: Effects of sequence length and maintenance delay”, Visual Cognition, vol. 30, 2022, pp. 597-616.
Chiou, S.-C., Schack, T.: Working memory for movement rhythms given spatial relevance: Effects of sequence length and maintenance delay. Visual Cognition. 30, 597-616 (2022).
Chiou, Shiau-Chuen, and Schack, Thomas. “Working memory for movement rhythms given spatial relevance: Effects of sequence length and maintenance delay”. Visual Cognition 30.9 (2022): 597-616.
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Open Access
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2023-01-04T10:34:35Z
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