This paper presents a numerical procedure for the calculation of the polynomial chaos (PC)-expansion coefficients for the per-unit-length capacitance and inductance matrices of wire structures affected by random parameter variability. According to the recent literature results, these coefficients in turn allow the generation of electrical circuit models for stochastic cables. The procedure is based on the twofold expansion of the nonuniform and stochastic charge distributions on the wire boundaries in terms of both Fourier and PC expansions. A stochastic Galerkin method allows to cast the problem in terms of a deterministic system of equations, whose solution provides the unknown coefficients. The proposed methodology is validated via the g...
This paper proposes a decoupled and iterative circuit implementation of the stochastic Galerkin meth...
Recently, an efficient stochastic modeling method for interconnects with inherent variability in the...
In this paper, a novel approach for statistical analysis of cable harnesses characterized by several...
This paper presents a numerical procedure for the calculation of the polynomial chaos (PC)-expansion...
In this paper, a numerical technique for the computation of polynomial chaos expansion coefficients ...
Polynomial chaos (PC)-based techniques recently became popular alternatives for the stochastic analy...
Cable bundles often exhibit random parameter variations due to uncertain or uncontrollable physical ...
Abstract. In this paper we propose an efficient tech-nique to extract the statistical properties of ...
This paper provides an overview of the polynomial chaos (PC) technique applied to the statistical an...
This paper provides and compares two alternative solutions for the simulation of cables and intercon...
The aim of this article is to provide an overview of polynomial chaos (PC) based methods for the sta...
This paper presents a novel approach for the statistical analysis of differential interconnects with...
This paper investigates the efficiency of a perturbative approach for the statistical assessment of ...
This paper proposes a decoupled and iterative circuit implementation of the stochastic Galerkin meth...
Recently, an efficient stochastic modeling method for interconnects with inherent variability in the...
In this paper, a novel approach for statistical analysis of cable harnesses characterized by several...
This paper presents a numerical procedure for the calculation of the polynomial chaos (PC)-expansion...
In this paper, a numerical technique for the computation of polynomial chaos expansion coefficients ...
Polynomial chaos (PC)-based techniques recently became popular alternatives for the stochastic analy...
Cable bundles often exhibit random parameter variations due to uncertain or uncontrollable physical ...
Abstract. In this paper we propose an efficient tech-nique to extract the statistical properties of ...
This paper provides an overview of the polynomial chaos (PC) technique applied to the statistical an...
This paper provides and compares two alternative solutions for the simulation of cables and intercon...
The aim of this article is to provide an overview of polynomial chaos (PC) based methods for the sta...
This paper presents a novel approach for the statistical analysis of differential interconnects with...
This paper investigates the efficiency of a perturbative approach for the statistical assessment of ...
This paper proposes a decoupled and iterative circuit implementation of the stochastic Galerkin meth...
Recently, an efficient stochastic modeling method for interconnects with inherent variability in the...
In this paper, a novel approach for statistical analysis of cable harnesses characterized by several...