Project Details
Plasticity of Task Switching in Childhood: Mechanisms and Sequential Progression
Applicant
Professorin Dr. Yana Fandakova
Subject Area
Developmental and Educational Psychology
General, Cognitive and Mathematical Psychology
General, Cognitive and Mathematical Psychology
Term
from 2018 to 2023
Project identifier
Deutsche Forschungsgemeinschaft (DFG) - Project number 406541156
In a rapidly changing world, switching between different tasks is often required to adjust behavior to changing circumstances and to achieve long-term goals. As children grow up, they face an increasing number of situations that require flexible switching between tasks, such as shifting mental gears from one lesson to the next, finding alternative ways to solve a problem, or taking notes while listening to a teacher. However, switching to a different task comes at a cost: children are slower and make more errors than adults under high-switch task conditions, presumably reflecting the protracted development of cognitive control processes and their underlying neural circuitry. Building on previous research suggesting that age differences in cognitive control processes decrease with task-switching practice, the proposed study aims at elucidating (a) the mechanisms that allow children to improve their task-switching performance during practice; and (b) the antecedents of individual differences in these improvements. Specifically, I propose to examine in this project: (i) whether practicing task switching improves different cognitive control components of task switching in children (9–10 years) relative to single-task training or no training groups; (ii) the extent to which practice-related improvements in task switching reflect greater efficiency of cognitive processes engaged prior to practice, changes in the nature of the cognitive processes and task representations supporting task switching, or both; (iii) whether individual differences in developmental status prior to training predict individual differences in task-switching plasticity. I will address these research questions by articulating behavioral and neurophysiological theories and levels of analysis.
DFG Programme
Priority Programmes
Subproject of
SPP 1772:
Human performance under multiple cognitive task requirements: From basic mechanisms to optimized task scheduling
International Connection
USA
Cooperation Partner
Professorin Silvia A. Bunge, Ph.D.