This paper introduces a fast stochastic surrogate modeling technique for the frequency-domain responses of linear and passive electrical and electromagnetic systems based on polynomial chaos expansion (PCE) and principal component analysis (PCA). A rational PCE model provides high accuracy, whereas the PCA allows compressing the model, leading to a reduced number of coefficients to estimate and thereby improving the overall training efficiency. Furthermore, the PCA compression is shown to provide additional accuracy improvements thanks to its intrinsic regularization properties. The effectiveness of the proposed method is illustrated by means of several application examples
peer reviewedIn this work, fast stochastic surrogate models are derived for extracting RL parameters...
We present a novel technique to efficiently perform the variability analysis of electromagnetic syst...
We present a novel technique to perform the model-order reduction (MOR) of multiport systems under t...
This paper introduces a fast stochastic surrogate modeling technique for the frequency-domain respon...
This paper introduces a compression strategy to speed-up the calculation of frequency-domain stochas...
This paper introduces the use of a rational polynomial chaos expansions (PCE) for the stochastic mac...
This paper presents an innovative modeling strategy for the construction of efficient and compact su...
This paper delivers a considerable improvement in the framework of the statistical simulation of hig...
The aim of this article is to provide an overview of polynomial chaos (PC) based methods for the sta...
This paper delivers a considerable improvement in the framework of the statistical simulation of hig...
Frequency Response Functions (FRFs) are important for assessing the behavior of stochastic linear dy...
This paper provides and compares two alternative solutions for the simulation of cables and intercon...
This letter proposes a general and effective decoupled technique for the stochastic simulation of no...
This letter proposes a general and effective decoupled technique for the stochastic simulation of no...
Polynomial chaos-based methods have been extensively applied in electrical and other engineering pro...
peer reviewedIn this work, fast stochastic surrogate models are derived for extracting RL parameters...
We present a novel technique to efficiently perform the variability analysis of electromagnetic syst...
We present a novel technique to perform the model-order reduction (MOR) of multiport systems under t...
This paper introduces a fast stochastic surrogate modeling technique for the frequency-domain respon...
This paper introduces a compression strategy to speed-up the calculation of frequency-domain stochas...
This paper introduces the use of a rational polynomial chaos expansions (PCE) for the stochastic mac...
This paper presents an innovative modeling strategy for the construction of efficient and compact su...
This paper delivers a considerable improvement in the framework of the statistical simulation of hig...
The aim of this article is to provide an overview of polynomial chaos (PC) based methods for the sta...
This paper delivers a considerable improvement in the framework of the statistical simulation of hig...
Frequency Response Functions (FRFs) are important for assessing the behavior of stochastic linear dy...
This paper provides and compares two alternative solutions for the simulation of cables and intercon...
This letter proposes a general and effective decoupled technique for the stochastic simulation of no...
This letter proposes a general and effective decoupled technique for the stochastic simulation of no...
Polynomial chaos-based methods have been extensively applied in electrical and other engineering pro...
peer reviewedIn this work, fast stochastic surrogate models are derived for extracting RL parameters...
We present a novel technique to efficiently perform the variability analysis of electromagnetic syst...
We present a novel technique to perform the model-order reduction (MOR) of multiport systems under t...