TY - JOUR
T1 - Task cues are quickly updated into working memory as part of their processing
T2 - The multiple-cue task-switching paradigm
AU - Kessler, Yoav
AU - Rozanis, Maayan
N1 - Funding Information:
This study was supported by an Israel Science Foundation grant #1088/21 awarded to Y.K. The raw data and analysis codes for this study are available at https://osf.io/rgjau/ .
Publisher Copyright:
© 2022, The Psychonomic Society, Inc.
PY - 2023/4/1
Y1 - 2023/4/1
N2 - Goal-directed behavior requires maintaining the relevant goal in working memory (WM) and using it to guide behavior. The contents of WM should be regulated, so only relevant goals, but not irrelevant ones, are maintained. Computational models suggest that a gate, which is closed by default, separates WM from perceptual input. Transient opening of the gate enables WM updating. Indeed, previous studies show that updating WM with relevant information is controlled, effortful, and slow. In contrast to the above, here we show that WM updating with goal information is faster and more accurate than not updating. A multiple-cue task-switching paradigm is introduced. Participants were presented with a sequence of task cues, followed by a single probe. They needed to respond to each cue using its corresponding key. The cues were presented in red or blue. When the probe appeared, participants had to judge it using the task cued by the most recent red (but not blue) cue. Accordingly, they had to update their WM when the cue appeared in red, but not when it was blue (the color mapping was counterbalanced in Experiment 2). In two experiments, we show that performance in update trials was faster and more accurate than in no-update trials, suggesting that updating, rather than not-updating, is the default mode of operation.
AB - Goal-directed behavior requires maintaining the relevant goal in working memory (WM) and using it to guide behavior. The contents of WM should be regulated, so only relevant goals, but not irrelevant ones, are maintained. Computational models suggest that a gate, which is closed by default, separates WM from perceptual input. Transient opening of the gate enables WM updating. Indeed, previous studies show that updating WM with relevant information is controlled, effortful, and slow. In contrast to the above, here we show that WM updating with goal information is faster and more accurate than not updating. A multiple-cue task-switching paradigm is introduced. Participants were presented with a sequence of task cues, followed by a single probe. They needed to respond to each cue using its corresponding key. The cues were presented in red or blue. When the probe appeared, participants had to judge it using the task cued by the most recent red (but not blue) cue. Accordingly, they had to update their WM when the cue appeared in red, but not when it was blue (the color mapping was counterbalanced in Experiment 2). In two experiments, we show that performance in update trials was faster and more accurate than in no-update trials, suggesting that updating, rather than not-updating, is the default mode of operation.
KW - Cognitive control and automaticity
KW - Task switching or executive control
KW - Working memory
UR - http://www.scopus.com/inward/record.url?scp=85138529432&partnerID=8YFLogxK
U2 - 10.3758/s13423-022-02186-x
DO - 10.3758/s13423-022-02186-x
M3 - Article
C2 - 36138283
AN - SCOPUS:85138529432
SN - 1069-9384
VL - 30
SP - 643
EP - 651
JO - Psychonomic Bulletin and Review
JF - Psychonomic Bulletin and Review
IS - 2
ER -