Knowing the correct skull conductivity is crucial for the accuracy of EEG source imaging, but unfortunately, its true value, which is inter- and intra-individually varying, is difficult to determine. In this paper, we propose a statistical method based on the Bayesian approximation error approach to compensate for source imaging errors related to erronous skull conductivity. We demonstrate the potential of the approach by simulating EEG data of focal source activity and using the dipole scan algorithm and a sparsity promoting prior to reconstruct the underlying sources. The results suggest that the greatest improvements with the proposed method can be achieved when the focal sources are close to the skull
One of the major issues related to electroencephalography (EEG) is to localize where in the brain si...
In brain imaging, the accuracy involved in calculating scalp potentials due to cerebral electric sou...
We investigated the influence of using simplified models of the skull on electroencephalogram (EEG) ...
Electroencephalography (EEG) source imaging is an ill-posed inverse problem that requires accurate c...
EEG source imaging (ESI) techniques estimate 3D brain activity based on electrical activity measured...
A reliable leadfield matrix is needed to solve the magnetoencephalography/electroencephalography (M/...
In this thesis, three different approaches are developed for the estimation of focal brain activity ...
AbstractThe conductivity profile of the head has a major effect on EEG signals, but unfortunately th...
The conductivity profile of the head has a major effect on EEG signals, but unfortunately the conduc...
International audienceA fundamental problem in theoretical neurosciences is the inverse problem of s...
M/EEG mechanisms allow determining changes in the brain activity, which is useful in diagnosing brai...
Source localization by electroencephalography (EEG) requires an accurate model of head geometry and ...
International audienceThe skull conductivity strongly influences the accuracy of EEG source localiza...
In magneto- and electroencephalography (M/EEG), spatial modelling of sensor data is necessary to mak...
Bioelectric source localization in the brain is sensitive to geometry and conductivity properties of...
One of the major issues related to electroencephalography (EEG) is to localize where in the brain si...
In brain imaging, the accuracy involved in calculating scalp potentials due to cerebral electric sou...
We investigated the influence of using simplified models of the skull on electroencephalogram (EEG) ...
Electroencephalography (EEG) source imaging is an ill-posed inverse problem that requires accurate c...
EEG source imaging (ESI) techniques estimate 3D brain activity based on electrical activity measured...
A reliable leadfield matrix is needed to solve the magnetoencephalography/electroencephalography (M/...
In this thesis, three different approaches are developed for the estimation of focal brain activity ...
AbstractThe conductivity profile of the head has a major effect on EEG signals, but unfortunately th...
The conductivity profile of the head has a major effect on EEG signals, but unfortunately the conduc...
International audienceA fundamental problem in theoretical neurosciences is the inverse problem of s...
M/EEG mechanisms allow determining changes in the brain activity, which is useful in diagnosing brai...
Source localization by electroencephalography (EEG) requires an accurate model of head geometry and ...
International audienceThe skull conductivity strongly influences the accuracy of EEG source localiza...
In magneto- and electroencephalography (M/EEG), spatial modelling of sensor data is necessary to mak...
Bioelectric source localization in the brain is sensitive to geometry and conductivity properties of...
One of the major issues related to electroencephalography (EEG) is to localize where in the brain si...
In brain imaging, the accuracy involved in calculating scalp potentials due to cerebral electric sou...
We investigated the influence of using simplified models of the skull on electroencephalogram (EEG) ...
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