Regulation of thoughts and behavior requires attention, particularly when there is conflict between alternative responses or when errors are to be prevented or corrected. Conflict monitoring and error processing are functions of the executive attention network, a neurocognitive system that greatly matures during childhood. In this study, we examined the development of brain mechanisms underlying conflict and error processing with event-related potentials (ERPs), and explored the relationship between brain function and individual differences in the ability to self-regulate behavior. Three groups of children aged 4–6, 7–9, and 10–13 years, and a group of adults performed a child-friendly version of the flanker task while ERPs were registered....
After perceiving cognitive conflicts or errors, children as well as adults adjust their performance ...
Objective: This study explored behavioral and electrophysiological age-related changes in conflict a...
Understanding the development of the brain’s neural networks can reveal critical insights into the c...
To study age-related changes in cognitive control, event-related potentials (ERPs) of children aged ...
Adjusting information processing flexibly to changing task demands and detecting self-generated erro...
Conflict control refers to an individual's goal-directed cognitive control and self-regulation o...
To study age-related changes in cognitive control, event-related potentials (ERPs) of children aged ...
Behavioral evidence indicates that skills associated with children’s cognitive control (e.g., respon...
Cognitive control processes allow individuals to guide their behaviour in the face of distracting or...
Conflict adaptation is key in how children self-regulate and assert cognitive control in a given sit...
Cognitive control enables goal-oriented adaptation to a fast-changing environment and has a protract...
This article presents a brief review of the researches concerning the control system of behavior tha...
Conflict control is an important cognitive ability in human behavioral regulation. The Eriksen flank...
Both encountering cognitive conflicts and committing errors slow down performance. We investigated t...
The rapid detection and resolution of conflict between opposing action tendencies is crucial for our...
After perceiving cognitive conflicts or errors, children as well as adults adjust their performance ...
Objective: This study explored behavioral and electrophysiological age-related changes in conflict a...
Understanding the development of the brain’s neural networks can reveal critical insights into the c...
To study age-related changes in cognitive control, event-related potentials (ERPs) of children aged ...
Adjusting information processing flexibly to changing task demands and detecting self-generated erro...
Conflict control refers to an individual's goal-directed cognitive control and self-regulation o...
To study age-related changes in cognitive control, event-related potentials (ERPs) of children aged ...
Behavioral evidence indicates that skills associated with children’s cognitive control (e.g., respon...
Cognitive control processes allow individuals to guide their behaviour in the face of distracting or...
Conflict adaptation is key in how children self-regulate and assert cognitive control in a given sit...
Cognitive control enables goal-oriented adaptation to a fast-changing environment and has a protract...
This article presents a brief review of the researches concerning the control system of behavior tha...
Conflict control is an important cognitive ability in human behavioral regulation. The Eriksen flank...
Both encountering cognitive conflicts and committing errors slow down performance. We investigated t...
The rapid detection and resolution of conflict between opposing action tendencies is crucial for our...
After perceiving cognitive conflicts or errors, children as well as adults adjust their performance ...
Objective: This study explored behavioral and electrophysiological age-related changes in conflict a...
Understanding the development of the brain’s neural networks can reveal critical insights into the c...