Providing estimates of the uncertainty in results obtained by Computational Electromagnetic (CEM) simulations is essential when determining the acceptability of the results. The Monte Carlo method (MCM) has been previously used to quantify the uncertainty in CEM simulations. Other computationally efficient methods have been investigated more recently, such as the polynomial chaos method (PCM) and the method of moments (MoM). This paper introduces a novel implementation of the PCM and the MoM into the finite-difference time -domain method. The PCM and the MoM are found to be computationally more efficient than the MCM, but can provide poorer estimates of the uncertainty in resonant electromagnetic compatibility data
This work described in this thesis develops a computationally efficient approach to performing elect...
This paper presents a study and proposes a new methodology to analyze, evaluate and reduce the overa...
Computational electromagnetics (CEM) is applied to model the interaction of electromagnetic fields w...
We discuss computationally efficient ways of accounting for the impact of uncertainty, e. g., lack o...
Uncertainty analysis methods are widely used in today’s Electromagnetic Compatibility (EMC) simulati...
The recent multilevel Monte Carlo (MLMC) method is here proposed for uncertainty quantification in ...
The polynomial chaos based finite-difference time-domain (PCE-FDTD) method is a promising technique ...
La quantification d’incertitudes est une démarche consistant à prendre en compte les incertitudes de...
We apply the multilevel Monte Carlo (MLMC) method with the finite-difference time-domain method (FDT...
Multilevel Monte Carlo (MLMC) method, enhanced by a smoothing technique based on Kernel Density Est...
This dissertation study three different approaches for stochastic electromagnetic fields based on th...
Variations in material properties, boundary conditions, or the geometry can be expected in most elec...
The uncertainties in various Electromagnetic (EM) problems may present a significant effect on the p...
A variety of numerical techniques are used in electromagnetic compatibility (EMC) for the numerical ...
We estimate the propagation of uncertainties in electromagnetic wave scattering problems. The comput...
This work described in this thesis develops a computationally efficient approach to performing elect...
This paper presents a study and proposes a new methodology to analyze, evaluate and reduce the overa...
Computational electromagnetics (CEM) is applied to model the interaction of electromagnetic fields w...
We discuss computationally efficient ways of accounting for the impact of uncertainty, e. g., lack o...
Uncertainty analysis methods are widely used in today’s Electromagnetic Compatibility (EMC) simulati...
The recent multilevel Monte Carlo (MLMC) method is here proposed for uncertainty quantification in ...
The polynomial chaos based finite-difference time-domain (PCE-FDTD) method is a promising technique ...
La quantification d’incertitudes est une démarche consistant à prendre en compte les incertitudes de...
We apply the multilevel Monte Carlo (MLMC) method with the finite-difference time-domain method (FDT...
Multilevel Monte Carlo (MLMC) method, enhanced by a smoothing technique based on Kernel Density Est...
This dissertation study three different approaches for stochastic electromagnetic fields based on th...
Variations in material properties, boundary conditions, or the geometry can be expected in most elec...
The uncertainties in various Electromagnetic (EM) problems may present a significant effect on the p...
A variety of numerical techniques are used in electromagnetic compatibility (EMC) for the numerical ...
We estimate the propagation of uncertainties in electromagnetic wave scattering problems. The comput...
This work described in this thesis develops a computationally efficient approach to performing elect...
This paper presents a study and proposes a new methodology to analyze, evaluate and reduce the overa...
Computational electromagnetics (CEM) is applied to model the interaction of electromagnetic fields w...