Patricia Hirsch scite author profile

In the present study, we combined the psychological refractory period (PRP) paradigm with a novel task-pair switching logic which enabled us to isolate performance costs occurring at the global level of task-pairs. In Experiment 1, in which we used conceptually overlapping responses for Task 1 (T1) and Task 2 (T2), we generated 3 task-pairs by combining 1 of 3 visual tasks (T1) with an auditory task (T2). In addition to worse performance after a short SOA than a long SOA (i.e., PRP effect), we found impaired performance in n - 1 task-pair switches as compared to n - 1 task-pair repetitions (i.e., n - 1 task-pair switch costs), suggesting that task-pairs were activated during dual-task processing. In Experiment 2, we increased the interference between T1 and T2 by using physically overlapping responses and we again observed n - 1 task-pair switch costs. To investigate whether the activation of task-pairs is adjusted by inhibitory control, we looked at the n - 2 task-pair sequence and found performance to be better in n - 2 task-pair repetitions than in n - 2 task-pair switches in both experiments. This n - 2 task-pair repetition benefit was replicated in Experiment 3 in which no immediate task-pair repetitions were included. Hence, the evidence suggests enhanced activation rather than inhibition as a crucial selection mechanism at the global level of dual-task processing. (PsycINFO Database Record

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Hierarchical task organization in dual tasks: evidence for higher level task representations

Hirsch

Nolden

Philipp

et al. 2017

Psychological Research

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To examine whether hierarchical higher level task representations comprising the task sets of Task 1 (T1) and Task 2 (T2) are activated within each trial in dual-task situations, we combined the psychological refractory period (PRP) paradigm with the task-pair switching logic (Hirsch et al. 2017). In Experiment 1, in which subjects switched between task-pairs including a varying T1 and a constant T2, we found a PRP effect (i.e., worse performance with short stimulus onset asynchrony [SOA] than with long SOA) and task-pair switch costs in T1 and T2 (impaired performance in task-pair switches compared to task-pair repetitions). However, since in Experiment 1 there were no forward and backward response-response compatibility effects that indicated interference between T1 and T2, we could not exclude that the activation of T1 persisted into the next trial despite the intervening T2, and hence, that task-pair switch costs are due to repetition-priming effects of T1 across task-pairs rather than due to persisting activation of task-pair representations. In Experiment 2, we used a modified task-pair switching logic with a constant T1 and a varying T2, and replicated task-pair switch costs under conditions that not only rule out repetition-priming effects of T1 across task-pairs as the source of task-pair switch costs but also disentangle the effects of switching task-pairs from those of switching T1. These effects were associated in previous studies using the original task-pair switching logic. Thus, the findings of the present study strongly suggest that hierarchical higher level task representations are activated during dual-task processing.

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Conflict adaptation in positive and negative mood: Applying a success-failure manipulation

et al. 2017

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Exploring the functional locus of language switching: Evidence from a PRP paradigm

2015

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Common Cognitive Control Processes Underlying Performance in Task-Switching and Dual-Task Contexts

Hirsch

Nolden

Declerck

et al. 2018

ACP

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cognitive control, task switching, dual tasks, PrP effectin the present study, participants performed highly comparable task-switching and dual-task paradigms, and the paradigm-specific performance costs were analysed in the context of the commonly postulated core components of cognitive control (i.e., working memory updating, inhibition, and shifting). in the task-switching paradigm, we found switch costs (i.e., switch trials vs. repetition trials) and mixing costs (i.e., repetition trials in mixed-task blocks vs. single-task trials). in the dual-task paradigm, we observed a psychological refractory period (PrP) effect (i.e., task 2 [t2] performance after short stimulus-onset asynchrony [soA] vs. long soA), dual-task costs (i.e., t2 dual-task performance with a long soA in trials with a task repetition between task 1 [t1] and t2 vs. single-task performance), and switch costs in t2 (i.e., dual-task performance in trials with a switch between t1 and t2 vs. dual-task performance in trials with a repetition between t1 and t2). A within-subjects comparison of the performance costs showed a correlation between mixing costs and dual-task costs, possibly indicating shared underlying cognitive control processes in terms of working memory updating. surprisingly, there was also a correlation between switch costs and the PrP effect, presumably suggesting that cognitive control, as opposed to passive queuing of response selection processes, contributes to the PrP effect. corresponding author: Patricia hirsch, cognitive and experimental Psychology, institute AbstrAct Keywords

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Patricia Hirsch

Higher-order cognitive control in dual tasks: Evidence from task-pair switching.

Hierarchical task organization in dual tasks: evidence for higher level task representations

Conflict adaptation in positive and negative mood: Applying a success-failure manipulation

Exploring the functional locus of language switching: Evidence from a PRP paradigm

Common Cognitive Control Processes Underlying Performance in Task-Switching and Dual-Task Contexts

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