The finite element method can be used to compute the electromagnetic fields induced in the human body by environmental extremely low frequency (ELF) fields. However, the electric properties of tissues are not precisely known and may vary depending on the individual, his/her age and other physiological parameters. In this paper, we account for the uncertainties on the conductivities of the brain tissues and spread them out to the induced fields by means of a nonintrusive approach based on Hermite polynomial chaos, with the finite element method as a black box. After showing the convergence of the method, we compute the probability to be over the thresholds defined by the international guidelines for limiting exposure to electromagnetic field...
Uncertainty surrounding ohmic tissue conductivity impedes accurate calculation of the electric field...
This article presents a method to characterize stochastic observables defined by induced surface cur...
The paper deals with the deterministic-stochastic model of the human body represented as cylindrical...
The finite element method can be used to compute the electromagnetic fields induced in the human bod...
International audienceThe finite element method can be used to compute the electromagnetic fields in...
The electroencephalogram (EEG) is one of the techniques used for the non-invasive diagnosis of patie...
We propose a framework of nonintrusive polynomial chaos methods for transcranial magnetic stimulatio...
The electroencephalogram (EEG) is one of the techniques used for the non-invasive diagnosis of patie...
In electromagnetism, for most numerical models (so-called deterministic models) solving Maxwell Equa...
Variations in material properties, boundary conditions, or the geometry can be expected in most elec...
Human exposure to extremely low frequency magnetic fields (ELF-MF) at 50 Hz is still a topic of grea...
La quantification d’incertitudes est une démarche consistant à prendre en compte les incertitudes de...
This paper is focused on the uncertainty estimate of a hybrid experimental–numerical procedure for ...
Stochastic spectral methods can generate accurate compact stochastic models for electromagnetic prob...
Uncertainty surrounding ohmic tissue conductivity impedes accurate calculation of the electric field...
This article presents a method to characterize stochastic observables defined by induced surface cur...
The paper deals with the deterministic-stochastic model of the human body represented as cylindrical...
The finite element method can be used to compute the electromagnetic fields induced in the human bod...
International audienceThe finite element method can be used to compute the electromagnetic fields in...
The electroencephalogram (EEG) is one of the techniques used for the non-invasive diagnosis of patie...
We propose a framework of nonintrusive polynomial chaos methods for transcranial magnetic stimulatio...
The electroencephalogram (EEG) is one of the techniques used for the non-invasive diagnosis of patie...
In electromagnetism, for most numerical models (so-called deterministic models) solving Maxwell Equa...
Variations in material properties, boundary conditions, or the geometry can be expected in most elec...
Human exposure to extremely low frequency magnetic fields (ELF-MF) at 50 Hz is still a topic of grea...
La quantification d’incertitudes est une démarche consistant à prendre en compte les incertitudes de...
This paper is focused on the uncertainty estimate of a hybrid experimental–numerical procedure for ...
Stochastic spectral methods can generate accurate compact stochastic models for electromagnetic prob...
Uncertainty surrounding ohmic tissue conductivity impedes accurate calculation of the electric field...
This article presents a method to characterize stochastic observables defined by induced surface cur...
The paper deals with the deterministic-stochastic model of the human body represented as cylindrical...