Brain-computer interfaces (BCI) can provide real-time and continuous assessments of mental workload in different scenarios, which can subsequently be used to optimize human-computer interaction. However, assessment of mental workload is complicated by the task-dependent nature of the underlying neural signals. Thus, classifiers trained on data from one task do not generalize well to other tasks. Previous attempts at classifying mental workload across different cognitive tasks have therefore only been partially successful. Here we introduce a novel algorithm to extract frontal theta oscillations from electroencephalographic (EEG) recordings of brain activity and show that it can be used to detect mental workload across different cognitive ta...
Despite the technological advancements, the employment of passive brain computer interface (BCI) out...
According to Cognitive Load Theory (CLT), one of the crucial factors for successful learning is the ...
Using a wireless single channel EEG device, we investigated the feasibility of using short-term fron...
International audienceBrain-computer interfaces (BCIs) are information transfer systems between a ma...
The study of mental workload becomes essential for human work efficiency, health conditions and to a...
International audienceBrain-computer interfaces (BCIs) can be separated into two main types: active ...
International audienceMental state monitoring is a topical issue in neuroengineering, more particula...
International audienceObjective. Mental workload is frequently estimated by EEG-based mental state m...
Mental workload estimation has been under extensive investigation over the years, because the capabi...
Research studies on EEG-based mental workload detection for a passive BCI generally focus on classif...
Passive Brain-Computer-Interfaces provide a promising approach to the continuous measurement of ment...
International audienceCurrent mental state monitoring systems, a.k.a. passive brain-computer interfa...
© 2016 IEEE. Passive brain-computer interfacing allows computer systems direct access to aspects of ...
A passive brain-computer interface (pBCI) is a system that continuously adapts a human-computer inte...
Despite the technological advancements, the employment of passive brain computer interface (BCI) out...
Despite the technological advancements, the employment of passive brain computer interface (BCI) out...
According to Cognitive Load Theory (CLT), one of the crucial factors for successful learning is the ...
Using a wireless single channel EEG device, we investigated the feasibility of using short-term fron...
International audienceBrain-computer interfaces (BCIs) are information transfer systems between a ma...
The study of mental workload becomes essential for human work efficiency, health conditions and to a...
International audienceBrain-computer interfaces (BCIs) can be separated into two main types: active ...
International audienceMental state monitoring is a topical issue in neuroengineering, more particula...
International audienceObjective. Mental workload is frequently estimated by EEG-based mental state m...
Mental workload estimation has been under extensive investigation over the years, because the capabi...
Research studies on EEG-based mental workload detection for a passive BCI generally focus on classif...
Passive Brain-Computer-Interfaces provide a promising approach to the continuous measurement of ment...
International audienceCurrent mental state monitoring systems, a.k.a. passive brain-computer interfa...
© 2016 IEEE. Passive brain-computer interfacing allows computer systems direct access to aspects of ...
A passive brain-computer interface (pBCI) is a system that continuously adapts a human-computer inte...
Despite the technological advancements, the employment of passive brain computer interface (BCI) out...
Despite the technological advancements, the employment of passive brain computer interface (BCI) out...
According to Cognitive Load Theory (CLT), one of the crucial factors for successful learning is the ...
Using a wireless single channel EEG device, we investigated the feasibility of using short-term fron...