Different neural systems underlie the evaluation of different types of errors. Recent electroencephalographic evidence suggests that outcome errors-errors indicating the failure to achieve a movement goal-are evaluated within medial-frontal cortex (Krigolson and Holroyd 2006, 2007a, b). Conversely, evidence from a variety of manual aiming studies has demonstrated that target errors-discrepancies between the actual and desired motor command brought about by an unexpected change in the movement environment-are mediated within posterior parietal cortex (e.g., Desmurget et al. 1999, 2001; Diedrichsen et al. 2005). Here, event-related brain potentials (ERP) were recorded to assess medial-frontal and parietal ERP components associated with the ev...
The posterior medial frontal cortex (pMFC) is known to be involved in adaptive goal-directed behavio...
The posterior medial frontal cortex (pMFC) is known to be involved in adaptive goal-directed behavio...
<div><p>Modulation of frontal midline theta (fmθ) is observed during error commission, but little is...
Different neural systems underlie the evaluation of different types of errors. Recent electroencepha...
Abstract DiVerent neural systems underlie the evaluation of diVerent types of errors. Recent electro...
Human goal-directed behavior depends on multiple neural systems that monitor and correct for differe...
Inhibiting actions when they are no longer appropriate is essential for adaptive goal-directed behav...
Action execution is prone to errors and, while engaged in interaction, our brain is tuned to detect ...
Action execution is prone to errors and, while engaged in interaction, our brain is tuned to detect ...
We have recently provided evidence that an error-related negativity (ERN), an ERP component generate...
The ability to monitor performance and detect errors is essential for intelligent behaviour. Motor b...
Errors generate typical brain responses, characterized by two successive event-related potentials (E...
Error detection is essential for monitoring performance and preparing subsequent behavioral adjustme...
Goal-directed behavior requires the ability to adapt performance strategies based oil the attributio...
Contains fulltext : 64780.pdf (publisher's version ) (Closed access)We used measur...
The posterior medial frontal cortex (pMFC) is known to be involved in adaptive goal-directed behavio...
The posterior medial frontal cortex (pMFC) is known to be involved in adaptive goal-directed behavio...
<div><p>Modulation of frontal midline theta (fmθ) is observed during error commission, but little is...
Different neural systems underlie the evaluation of different types of errors. Recent electroencepha...
Abstract DiVerent neural systems underlie the evaluation of diVerent types of errors. Recent electro...
Human goal-directed behavior depends on multiple neural systems that monitor and correct for differe...
Inhibiting actions when they are no longer appropriate is essential for adaptive goal-directed behav...
Action execution is prone to errors and, while engaged in interaction, our brain is tuned to detect ...
Action execution is prone to errors and, while engaged in interaction, our brain is tuned to detect ...
We have recently provided evidence that an error-related negativity (ERN), an ERP component generate...
The ability to monitor performance and detect errors is essential for intelligent behaviour. Motor b...
Errors generate typical brain responses, characterized by two successive event-related potentials (E...
Error detection is essential for monitoring performance and preparing subsequent behavioral adjustme...
Goal-directed behavior requires the ability to adapt performance strategies based oil the attributio...
Contains fulltext : 64780.pdf (publisher's version ) (Closed access)We used measur...
The posterior medial frontal cortex (pMFC) is known to be involved in adaptive goal-directed behavio...
The posterior medial frontal cortex (pMFC) is known to be involved in adaptive goal-directed behavio...
<div><p>Modulation of frontal midline theta (fmθ) is observed during error commission, but little is...