Detecting errors in other's actions is of pivotal importance for joint action, competitive behavior and observational learning. Although many studies have focused on the neural mechanisms involved in detecting low-level errors, relatively little is known about error-detection in everyday situations. The present study aimed to identify the functional and neural mechanisms whereby we understand the correctness of other's actions involving well-known objects (e. g. pouring coffee in a cup). Participants observed action sequences in which the correctness of the object grasped and the grip applied to a pair of objects were independently manipulated. Observation of object violations (e.g. grasping the empty cup instead of the coffee pot) resulted...
During joint action, the sense of agency enables interaction partners to implement corrective and ad...
The accuracy of actions is swiftly determined through specific monitoring brain systems. Event-relat...
Contains fulltext : 55450.pdf (publisher's version ) (Closed access)Recent experim...
Contains fulltext : 103060.pdf (publisher's version ) (Open Access)Detecting error...
Contains fulltext : 72920.pdf (publisher's version ) (Open Access)Semantic knowled...
Semantic knowledge about objects entails both knowing how to grasp an object (grip-related knowledge...
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 ...
For human beings, monitoring others' errors is essential for efficient goal-directed behavior. Indee...
Prior work shows that the possibility of action to an object (visual affordance) facilitates attenti...
Contains fulltext : 55084.pdf (publisher's version ) (Closed access)Many of our da...
Affordances represent features of an object that trigger specific actions. Here we tested whether th...
For successful goal-directed behavior it is essential for humans to continuously monitor one’s actio...
It is known that the functional properties of an object can interact with perceptual, cognitive, and...
PublishedJournal ArticleObserving the actions of others has been shown to modulate cortico-spinal ex...
During joint action, the sense of agency enables interaction partners to implement corrective and ad...
The accuracy of actions is swiftly determined through specific monitoring brain systems. Event-relat...
Contains fulltext : 55450.pdf (publisher's version ) (Closed access)Recent experim...
Contains fulltext : 103060.pdf (publisher's version ) (Open Access)Detecting error...
Contains fulltext : 72920.pdf (publisher's version ) (Open Access)Semantic knowled...
Semantic knowledge about objects entails both knowing how to grasp an object (grip-related knowledge...
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 ...
For human beings, monitoring others' errors is essential for efficient goal-directed behavior. Indee...
Prior work shows that the possibility of action to an object (visual affordance) facilitates attenti...
Contains fulltext : 55084.pdf (publisher's version ) (Closed access)Many of our da...
Affordances represent features of an object that trigger specific actions. Here we tested whether th...
For successful goal-directed behavior it is essential for humans to continuously monitor one’s actio...
It is known that the functional properties of an object can interact with perceptual, cognitive, and...
PublishedJournal ArticleObserving the actions of others has been shown to modulate cortico-spinal ex...
During joint action, the sense of agency enables interaction partners to implement corrective and ad...
The accuracy of actions is swiftly determined through specific monitoring brain systems. Event-relat...
Contains fulltext : 55450.pdf (publisher's version ) (Closed access)Recent experim...