Add to ORKGElectro-cortical signatures of performance errors are thought to indicate the need for top-down control. Mid-frontal Theta oscillatory activity (4-8Hz) is a well-established marker of committed or observed errors. By combining EEG and immersive virtual reality, we reported that observing errors in reach-to-grasp actions of an avatar seen from a first-person perspective elicited greater theta oscillations over fronto-central electrodes (Pavone et al., 2016). Previous studies on committed or observed errors used sequences of trials were erroneous actions were less frequent than correct actions (e.g. 30% vs 70%). Therefore, it was not possible to disentangle whether the activation of the performance system was due to error per se or to surpris...
Limb apraxia (LA) refers to a high-order motor disorder characterized by the inability to reproduce ...
The ability to monitor performance and detect errors is essential for intelligent behaviour. Motor b...
A basic EEG feature upon voluntary movements in healthy human subjects is a β (13-30 Hz) band desync...
EEG studies show that observing errors in one's own or others' actions triggers specific electro-cor...
Detecting errors in one’s own actions, and in the actions of others, is a crucial ability for adapta...
Controlling artificial virtual or physical agents is a fundamental challenge for both neuroscience ...
Brain monitoring of errors in one's own and other's actions is crucial for a variety of processes, r...
Brain monitoring of errors in one’s own and other’s actions is crucial for a variety of processes, r...
The brain mechanism of embodiment in a virtual body has grown a scientific interest recently, with a...
Virtual conferenceInternational audienceWhen persons interact with the environment and experience or...
Discrepancies between sensory predictions and action outcome are at the base of error coding. Howeve...
Abstract Detecting errors in your own and others’ actions is associated with discrepancies between i...
How does the brain monitor performances? Does expertise modulate this process? How does an observer’...
Error-related negativity (ERN) is a signal that is associated with error detection. Joch and colleag...
Error-related potentials (ErrP) are a prominent electroencephalogram (EEG) correlate of performance ...
Limb apraxia (LA) refers to a high-order motor disorder characterized by the inability to reproduce ...
The ability to monitor performance and detect errors is essential for intelligent behaviour. Motor b...
A basic EEG feature upon voluntary movements in healthy human subjects is a β (13-30 Hz) band desync...
EEG studies show that observing errors in one's own or others' actions triggers specific electro-cor...
Detecting errors in one’s own actions, and in the actions of others, is a crucial ability for adapta...
Controlling artificial virtual or physical agents is a fundamental challenge for both neuroscience ...
Brain monitoring of errors in one's own and other's actions is crucial for a variety of processes, r...
Brain monitoring of errors in one’s own and other’s actions is crucial for a variety of processes, r...
The brain mechanism of embodiment in a virtual body has grown a scientific interest recently, with a...
Virtual conferenceInternational audienceWhen persons interact with the environment and experience or...
Discrepancies between sensory predictions and action outcome are at the base of error coding. Howeve...
Abstract Detecting errors in your own and others’ actions is associated with discrepancies between i...
How does the brain monitor performances? Does expertise modulate this process? How does an observer’...
Error-related negativity (ERN) is a signal that is associated with error detection. Joch and colleag...
Error-related potentials (ErrP) are a prominent electroencephalogram (EEG) correlate of performance ...
Limb apraxia (LA) refers to a high-order motor disorder characterized by the inability to reproduce ...
The ability to monitor performance and detect errors is essential for intelligent behaviour. Motor b...
A basic EEG feature upon voluntary movements in healthy human subjects is a β (13-30 Hz) band desync...