Human goal-directed behavior depends on multiple neural systems that monitor and correct for different types of errors. For example, tracking errors in continuous motor tasks appear to be processed by a system involving posterior parietal cortex, whereas errors in speeded response and trial-and-error learning tasks appear to be processed by a system involving frontal-medial cortex. To date, it is unknown whether there is a functional relationship between the posterior and frontal error systems. We recorded the event-related brain potential from participants engaged in a tracking task to investigate the role of the frontal system in continuous motor control. Our results demonstrate that tracking errors elicit temporally distinct error-relate...
Failure to adapt performance following an error is a debilitating symptom of many neurological and p...
Recently, it has been shown that the medial prefrontal cortex (MPFC) is involved in error execution ...
Contains fulltext : 90763.pdf (publisher's version ) (Open Access)Error monitoring...
Human goal-directed behavior depends on multiple neural systems that monitor and correct for differe...
A number of studies have focused on the role of specific brain regions, such as the dorsal anterior ...
Learning from errors is a critical feature of human cognition. It underlies our ability to adapt to ...
Different neural systems underlie the evaluation of different types of errors. Recent electroencepha...
Goal-directed behavior is dependent upon the ability to detect errors and implement appropriate post...
Abstract DiVerent neural systems underlie the evaluation of diVerent types of errors. Recent electro...
Contains fulltext : 64780.pdf (publisher's version ) (Closed access)We used measur...
Learning from errors is a critical feature of human cognition. It underlies our ability to adapt to ...
Contains fulltext : 90788.pdf (publisher's version ) (Open Access)As Seneca the Yo...
Hierarchical error processing occurs through different neural systems which are specifically tasked ...
International audienceWe investigated which brain areas show error-related activity during online mo...
Successful behaviour requires error detection resulting in remedial actions, such as immediate error...
Failure to adapt performance following an error is a debilitating symptom of many neurological and p...
Recently, it has been shown that the medial prefrontal cortex (MPFC) is involved in error execution ...
Contains fulltext : 90763.pdf (publisher's version ) (Open Access)Error monitoring...
Human goal-directed behavior depends on multiple neural systems that monitor and correct for differe...
A number of studies have focused on the role of specific brain regions, such as the dorsal anterior ...
Learning from errors is a critical feature of human cognition. It underlies our ability to adapt to ...
Different neural systems underlie the evaluation of different types of errors. Recent electroencepha...
Goal-directed behavior is dependent upon the ability to detect errors and implement appropriate post...
Abstract DiVerent neural systems underlie the evaluation of diVerent types of errors. Recent electro...
Contains fulltext : 64780.pdf (publisher's version ) (Closed access)We used measur...
Learning from errors is a critical feature of human cognition. It underlies our ability to adapt to ...
Contains fulltext : 90788.pdf (publisher's version ) (Open Access)As Seneca the Yo...
Hierarchical error processing occurs through different neural systems which are specifically tasked ...
International audienceWe investigated which brain areas show error-related activity during online mo...
Successful behaviour requires error detection resulting in remedial actions, such as immediate error...
Failure to adapt performance following an error is a debilitating symptom of many neurological and p...
Recently, it has been shown that the medial prefrontal cortex (MPFC) is involved in error execution ...
Contains fulltext : 90763.pdf (publisher's version ) (Open Access)Error monitoring...