Add to ORKGThe aim of the study is to testify the effects of different inhomogeneous tissues on computed electrical potential fields associated with the electroencephalograph. The inhomogeneity of head tissues is included in head model using so-called pseudo conductivity created by limited, experimental measured data. Simulations were performed varying the conductivities assigned to the different head compartments in the model. Comparisons of different conductivity combinations followed one of two basic schemes: (1) a piecewise homogeneous multi-layer head serves as the reference against which we compared simulations with a single tissue assigned its pseudo conductivity, and (2) a fully inhomogeneous head serves as the reference and we remove the effe...
We investigated the influence of using simplified models of the skull on electroencephalogram (EEG) ...
The function and structure of the human brain is immensely complex and, at the same time, the key to...
This study presents a whole-head finite element model of deep brain stimulation to examine the effec...
Engineering in Medicine and Biology and Biomedical Engineering SocietyTwo issues relating to the mod...
Human head models for the forward computation of EEG using FEM require a large set of elements to re...
Most of the human head models used in dipole localisation research, which have been reported in the ...
The electroencephalogram (EEG) is a measurement of neuronal activity inside the brain over a period ...
In brain imaging, the accuracy involved in calculating scalp potentials due to cerebral electric sou...
In the most head modeling, the skull tissues are considered either homogeneous, inhomogeneous or an...
A realistically shaped model of the head, consisting of tetrahedral elements, is used to investigate...
Electromagnetic source characterisation requires accurate volume conductor models representing head ...
In brain imaging, the accuracy involved in calculating scalp potentials due to cerebral electric sou...
The definitive version may be found at www.wiley.comA realistic subject-specific human head model wa...
For accurate EEG/MEG source analysis it is necessary to model the head volume conductor as realistic...
International audienceThe skull conductivity strongly influences the accuracy of EEG source localiza...
We investigated the influence of using simplified models of the skull on electroencephalogram (EEG) ...
The function and structure of the human brain is immensely complex and, at the same time, the key to...
This study presents a whole-head finite element model of deep brain stimulation to examine the effec...
Engineering in Medicine and Biology and Biomedical Engineering SocietyTwo issues relating to the mod...
Human head models for the forward computation of EEG using FEM require a large set of elements to re...
Most of the human head models used in dipole localisation research, which have been reported in the ...
The electroencephalogram (EEG) is a measurement of neuronal activity inside the brain over a period ...
In brain imaging, the accuracy involved in calculating scalp potentials due to cerebral electric sou...
In the most head modeling, the skull tissues are considered either homogeneous, inhomogeneous or an...
A realistically shaped model of the head, consisting of tetrahedral elements, is used to investigate...
Electromagnetic source characterisation requires accurate volume conductor models representing head ...
In brain imaging, the accuracy involved in calculating scalp potentials due to cerebral electric sou...
The definitive version may be found at www.wiley.comA realistic subject-specific human head model wa...
For accurate EEG/MEG source analysis it is necessary to model the head volume conductor as realistic...
International audienceThe skull conductivity strongly influences the accuracy of EEG source localiza...
We investigated the influence of using simplified models of the skull on electroencephalogram (EEG) ...
The function and structure of the human brain is immensely complex and, at the same time, the key to...
This study presents a whole-head finite element model of deep brain stimulation to examine the effec...