Consequences of predictable temporal structure in multi-task situations

Daniela Gresch; Sage E.P. Boettcher; Anna C. Nobre; Freek van Ede

doi:10.1016/j.cognition.2022.105156

Consequences of predictable temporal structure in multi-task situations

Daniela Gresch^*
, Sage E.P. Boettcher
, Anna C. Nobre
, Freek van Ede

^*Corresponding author for this work

Cognitive Psychology

Research output: Contribution to Journal › Article › Academic › peer-review

Abstract

In everyday life, we often anticipate the timing of an upcoming task or event while actively engaging in another. Here, we investigated the effects of predictable temporal structure within such a multi-task scenario. In a visual working-memory task, we manipulated whether the onset of a working-memory probe could be predicted in time, while also embedding a simple intervening task within the delay period. We first show that working-memory performance benefitted from temporal expectations, even though an intervening task had to be completed in the interim. Moreover, temporal predictions regarding the upcoming working-memory probe additionally affected performance on the intervening task, resulting in faster responses when the memory probe was expected early, and slower responses when the memory probe was expected late, as compared to when it was temporally unpredictable. Because the intervening task always occurred at the same time during the memory delay, differences in performance on this intervening task result from a between-task consequence of temporal expectation. Thus, we show that within multi-task settings, knowing when working-memory contents will be required for an upcoming task not only facilitates performance of the associated working-memory task, but can also influence the performance of other, intervening tasks.

Original language	English
Article number	105156
Pages (from-to)	1-10
Number of pages	10
Journal	Cognition
Volume	225
Early online date	7 May 2022
DOIs	https://doi.org/10.1016/j.cognition.2022.105156
Publication status	Published - Aug 2022

Bibliographical note

Funding Information:
The authors would like to thank Gordon Dodwell for his thoughtful comments on this manuscript. This research was funded by an ERC Starting Grant from the European Research Council (MEMTICIPATION, 850636) to F.v.E. and a Wellcome Trust Senior Investigator Award (104571/Z/14/Z) and a James S. McDonnell Foundation Understanding Human Cognition Collaborative Award (220020448) to A.C.N., and by the NIHR Oxford Health Biomedical Research Centre. The Wellcome Centre for Integrative Neuroimaging is supported by core funding from the Wellcome Trust (203139/Z/16/Z). For the purpose of open access, the author has applied a CC-BY public copyright licence to any Author Accepted Manuscript version arising from this submission.

Publisher Copyright:
© 2022 The Authors

Funding

The authors would like to thank Gordon Dodwell for his thoughtful comments on this manuscript. This research was funded by an ERC Starting Grant from the European Research Council (MEMTICIPATION, 850636) to F.v.E. and a Wellcome Trust Senior Investigator Award (104571/Z/14/Z) and a James S. McDonnell Foundation Understanding Human Cognition Collaborative Award (220020448) to A.C.N. and by the NIHR Oxford Health Biomedical Research Centre. The Wellcome Centre for Integrative Neuroimaging is supported by core funding from the Wellcome Trust (203139/Z/16/Z). For the purpose of open access, the author has applied a CC-BY public copyright licence to any Author Accepted Manuscript version arising from this submission. D.G. S.E.P.B. A.C.N. and F.v.E. and designed the research; D.G. programmed experiment and performed data collection; D.G. and S.E.P.B. performed the main analyses and made the figures; D.G. S.E.P.B. A.C.N. and F.v.E. wrote and revised the manuscript. The authors would like to thank Gordon Dodwell for his thoughtful comments on this manuscript. This research was funded by an ERC Starting Grant from the European Research Council (MEMTICIPATION, 850636) to F.v.E. and a Wellcome Trust Senior Investigator Award (104571/Z/14/Z) and a James S. McDonnell Foundation Understanding Human Cognition Collaborative Award (220020448) to A.C.N., and by the NIHR Oxford Health Biomedical Research Centre. The Wellcome Centre for Integrative Neuroimaging is supported by core funding from the Wellcome Trust (203139/Z/16/Z). For the purpose of open access, the author has applied a CC-BY public copyright licence to any Author Accepted Manuscript version arising from this submission.

Funders	Funder number
MEMTICIPATION
European Research Council
James S. McDonnell Foundation	220020448
Horizon 2020 Framework Programme	850636
NIHR Oxford Biomedical Research Centre	203139/Z/16/Z
Wellcome Trust	104571/Z/14/Z, 203139

Keywords

Attention
Intervening task
Temporal expectation
Working memory

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10.1016/j.cognition.2022.105156

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title = "Consequences of predictable temporal structure in multi-task situations",

abstract = "In everyday life, we often anticipate the timing of an upcoming task or event while actively engaging in another. Here, we investigated the effects of predictable temporal structure within such a multi-task scenario. In a visual working-memory task, we manipulated whether the onset of a working-memory probe could be predicted in time, while also embedding a simple intervening task within the delay period. We first show that working-memory performance benefitted from temporal expectations, even though an intervening task had to be completed in the interim. Moreover, temporal predictions regarding the upcoming working-memory probe additionally affected performance on the intervening task, resulting in faster responses when the memory probe was expected early, and slower responses when the memory probe was expected late, as compared to when it was temporally unpredictable. Because the intervening task always occurred at the same time during the memory delay, differences in performance on this intervening task result from a between-task consequence of temporal expectation. Thus, we show that within multi-task settings, knowing when working-memory contents will be required for an upcoming task not only facilitates performance of the associated working-memory task, but can also influence the performance of other, intervening tasks.",

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N2 - In everyday life, we often anticipate the timing of an upcoming task or event while actively engaging in another. Here, we investigated the effects of predictable temporal structure within such a multi-task scenario. In a visual working-memory task, we manipulated whether the onset of a working-memory probe could be predicted in time, while also embedding a simple intervening task within the delay period. We first show that working-memory performance benefitted from temporal expectations, even though an intervening task had to be completed in the interim. Moreover, temporal predictions regarding the upcoming working-memory probe additionally affected performance on the intervening task, resulting in faster responses when the memory probe was expected early, and slower responses when the memory probe was expected late, as compared to when it was temporally unpredictable. Because the intervening task always occurred at the same time during the memory delay, differences in performance on this intervening task result from a between-task consequence of temporal expectation. Thus, we show that within multi-task settings, knowing when working-memory contents will be required for an upcoming task not only facilitates performance of the associated working-memory task, but can also influence the performance of other, intervening tasks.

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Consequences of predictable temporal structure in multi-task situations

Abstract

Bibliographical note

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Keywords

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