Although the field of Brain-Computer Interfacing (BCI) has made incredible advances in the last decade, current BCIs are still scarcely used outside laboratories. One reason is the lack of robustness to noise, artifacts and nonstationarity which are intrinsic parts of the recorded brain signal. Furthermore out-of-lab environments imply the presence of external variables that are largely beyond the control of the user, but can severely corrupt signal quality. This paper presents a new generation of robust EEG signal processing approaches based on the information geometric notion of divergence. We show that these divergence-based methods can be used for robust spatial filtering and thus increase the systems' reliability when confronted to, e....
Brain-Computer Interfaces can suffer from a large variance of the subject conditions within and acro...
A major challenge in EEG-based brain-computer interfaces (BCIs) is the intersession nonstationarity ...
Research on EEG based brain-computer-interfaces (BCIs) aims at steering devices by thought. Even for...
The computation of task-related spatial filters is a prerequisite for a successful application of mo...
Abstract—Controlling a device with a Brain-Computer In-terface (BCI) requires extraction of relevant...
EEG single-trial analysis requires methods that are robust against noise and disturbance. In this co...
Reliable estimation of covariance matrices from high-dimen-sional electroencephalographic recordings...
A brain-computer interface (BCI) enables direct communication from the brain to devices, bypassing t...
Brain computer interfaces (BCIs) have been attracting a great interest in recent years. The common s...
Brain-Computer Interfaces can suffer from a large variance of the subject conditions within and acro...
The performance of EEG-based Brain-Computer-Interfaces (BCIs) critically depends on the extraction o...
The performance of EEG-based Brain-Computer-Interfaces (BCIs) critically de-pends on the extraction ...
Brain-Computer Interfaces can suffer from a large variance of the subject conditions within and acro...
A brain-computer interface (BCI) provides a new pathway for communication and control through decodi...
Motor-imagery based Brain Computer Interface (BCI) provides a direct communication pathway between t...
Brain-Computer Interfaces can suffer from a large variance of the subject conditions within and acro...
A major challenge in EEG-based brain-computer interfaces (BCIs) is the intersession nonstationarity ...
Research on EEG based brain-computer-interfaces (BCIs) aims at steering devices by thought. Even for...
The computation of task-related spatial filters is a prerequisite for a successful application of mo...
Abstract—Controlling a device with a Brain-Computer In-terface (BCI) requires extraction of relevant...
EEG single-trial analysis requires methods that are robust against noise and disturbance. In this co...
Reliable estimation of covariance matrices from high-dimen-sional electroencephalographic recordings...
A brain-computer interface (BCI) enables direct communication from the brain to devices, bypassing t...
Brain computer interfaces (BCIs) have been attracting a great interest in recent years. The common s...
Brain-Computer Interfaces can suffer from a large variance of the subject conditions within and acro...
The performance of EEG-based Brain-Computer-Interfaces (BCIs) critically depends on the extraction o...
The performance of EEG-based Brain-Computer-Interfaces (BCIs) critically de-pends on the extraction ...
Brain-Computer Interfaces can suffer from a large variance of the subject conditions within and acro...
A brain-computer interface (BCI) provides a new pathway for communication and control through decodi...
Motor-imagery based Brain Computer Interface (BCI) provides a direct communication pathway between t...
Brain-Computer Interfaces can suffer from a large variance of the subject conditions within and acro...
A major challenge in EEG-based brain-computer interfaces (BCIs) is the intersession nonstationarity ...
Research on EEG based brain-computer-interfaces (BCIs) aims at steering devices by thought. Even for...