We describe error-related potentials generated while a human user monitors the performance of an external agent and discuss their use for a new type of Brain-Computer Interaction. In this approach, single trial detection of error-related EEG potentials is used to infer the optimal agent behavior by decreasing the probability of agent decisions that elicited such potentials. Contrasting with traditional approaches, the user acts as a critic of an external autonomous system instead of continuously generating control commands. This sets a cognitive monitoring loop where the human directly provides information about the overall system performance that, in turn, can be used for its improvement. We show that it is possible to recognize erroneous ...
The primary goal of brain-computer interface (BCI) research is to provide a means of communication f...
Brain Computer Interface (BCI) systems aim to generate alternative communication pathways for people...
Scalp recorded electroencephalogram signals (EEG) reflect the combined synaptic and axonal activity ...
Several studies describe evoked EEG potentials elicited when a subject is aware of an erroneous deci...
The idea to use EEG correlates of errors to correct or reinforce BCI operation has been proposed ove...
Brain-computer interfaces (BCI), as any other interaction modality based on physiological signals an...
Error-related potentials (ErrP) are a prominent electroencephalogram (EEG) correlate of performance ...
This thesis investigates possible improved brain-computer interface (BCI) performance by using the e...
Brain Computer Interfaces (BCI) permit to control external devices through the detection and classif...
Performance improvement in both humans and artificial systems strongly relies in the ability of reco...
Brain-computer interfaces (BCI) provide severely disabled people with the means to control assistive...
Cognitive information has been exploited in non-invasive Brain Computer Interface (BCI) scenarios to...
A Brain-Computer Interface (BCI) is a system that allows for direct communication between the brain ...
International audienceSeveral studies describe evoked EEG potentials elicited when a subject is awar...
International audienceUnderstanding how the brain processes errors is an essential and active field ...
The primary goal of brain-computer interface (BCI) research is to provide a means of communication f...
Brain Computer Interface (BCI) systems aim to generate alternative communication pathways for people...
Scalp recorded electroencephalogram signals (EEG) reflect the combined synaptic and axonal activity ...
Several studies describe evoked EEG potentials elicited when a subject is aware of an erroneous deci...
The idea to use EEG correlates of errors to correct or reinforce BCI operation has been proposed ove...
Brain-computer interfaces (BCI), as any other interaction modality based on physiological signals an...
Error-related potentials (ErrP) are a prominent electroencephalogram (EEG) correlate of performance ...
This thesis investigates possible improved brain-computer interface (BCI) performance by using the e...
Brain Computer Interfaces (BCI) permit to control external devices through the detection and classif...
Performance improvement in both humans and artificial systems strongly relies in the ability of reco...
Brain-computer interfaces (BCI) provide severely disabled people with the means to control assistive...
Cognitive information has been exploited in non-invasive Brain Computer Interface (BCI) scenarios to...
A Brain-Computer Interface (BCI) is a system that allows for direct communication between the brain ...
International audienceSeveral studies describe evoked EEG potentials elicited when a subject is awar...
International audienceUnderstanding how the brain processes errors is an essential and active field ...
The primary goal of brain-computer interface (BCI) research is to provide a means of communication f...
Brain Computer Interface (BCI) systems aim to generate alternative communication pathways for people...
Scalp recorded electroencephalogram signals (EEG) reflect the combined synaptic and axonal activity ...