AbstractIn source localization of electroencephalograpic (EEG) signals, as well as in targeted transcranial electric current stimulation (tES), a volume conductor model is required to describe the flow of electric currents in the head. Boundary element models (BEM) can be readily computed to represent major tissue compartments, but cannot encode detailed anatomical information within compartments. Finite element models (FEM) can capture more tissue types and intricate anatomical structures, but with the higher precision also comes the need for semi-automated segmentation, and a higher computational cost. In either case, adjusting to the individual human anatomy requires costly magnetic resonance imaging (MRI), and thus head modeling is ofte...
Subject-specific four-layer boundary element method (BEM) electrical forward head models for four pa...
The function and structure of the human brain is immensely complex and, at the same time, the key to...
Abstract Background The structure of the anatomical surfaces, e.g., CSF and gray and white matter, c...
In source localization of electroencephalograpic (EEG) signals, as well as in targeted transcranial ...
AbstractIn source localization of electroencephalograpic (EEG) signals, as well as in targeted trans...
In order to reconstruct the underlying active neural sources of epileptic spiking activity measured ...
Brain source imaging is a sophisticated method for estimating the location of active brain tissues a...
Reconstruction of the electrical sources of human EEG activity at high spatiotemporal accuracy is an...
Electrical source imaging (ESI) aims at reconstructing the electrical brain activity from scalp EEG....
For accurate EEG/MEG source analysis it is necessary to model the head volume conductor as realistic...
Usually the head is described as a set of concentric spheres, each compartment with linear, isotropi...
AbstractElectrical source imaging (ESI) aims at reconstructing the electrical brain activity from sc...
Abstract—Targeted transcranial stimulation with electric currents requires accurate models of the cu...
Introduction: Electrical fields passing through the human skull are affected by its low electrical c...
The need for realistic electric field calculations in human noninvasive brain stimulation is undispu...
Subject-specific four-layer boundary element method (BEM) electrical forward head models for four pa...
The function and structure of the human brain is immensely complex and, at the same time, the key to...
Abstract Background The structure of the anatomical surfaces, e.g., CSF and gray and white matter, c...
In source localization of electroencephalograpic (EEG) signals, as well as in targeted transcranial ...
AbstractIn source localization of electroencephalograpic (EEG) signals, as well as in targeted trans...
In order to reconstruct the underlying active neural sources of epileptic spiking activity measured ...
Brain source imaging is a sophisticated method for estimating the location of active brain tissues a...
Reconstruction of the electrical sources of human EEG activity at high spatiotemporal accuracy is an...
Electrical source imaging (ESI) aims at reconstructing the electrical brain activity from scalp EEG....
For accurate EEG/MEG source analysis it is necessary to model the head volume conductor as realistic...
Usually the head is described as a set of concentric spheres, each compartment with linear, isotropi...
AbstractElectrical source imaging (ESI) aims at reconstructing the electrical brain activity from sc...
Abstract—Targeted transcranial stimulation with electric currents requires accurate models of the cu...
Introduction: Electrical fields passing through the human skull are affected by its low electrical c...
The need for realistic electric field calculations in human noninvasive brain stimulation is undispu...
Subject-specific four-layer boundary element method (BEM) electrical forward head models for four pa...
The function and structure of the human brain is immensely complex and, at the same time, the key to...
Abstract Background The structure of the anatomical surfaces, e.g., CSF and gray and white matter, c...