Abstract—This paper presents an evolution of the challenges and solutions found in the application of techniques based on the Method of Moments until the present day. The original MoM presented very high computational restrictions that have motivated the development of more efficient approaches. The main features of these newer improvements are presented, as well as other technical details regarding preconditioning and parallelization techniques. Some representative examples are shown in order to assert the suitability of these approaches for the analysis of complex and realistic scenarios. 1
Fast-multipole and precorrected-FFT accelerated iterative methods have substantially improved the ef...
In this work we address the conceptualisation of a Simulation Environment for the development of mul...
We present MOMENTS, a newly developed software library lbr Monte Carlo simulation of semiconductor d...
A variety of numerical techniques are used in electromagnetic compatibility (EMC) for the numerical ...
Abstract—The paper gives arguments for the topicality of electromagnetic compatibility modeling. Tre...
The Method of Moments (MoM, also referred to as the Boundary Element Method outside of electromagnet...
This manuscript deals with optimizing the numerical method called the method of moments (MoM). This ...
The Method of Moments (MoM) is a numerical technique used to approximately solve linear operator equ...
In this paper, a MultiStructure computation technique based on the Method of Moments (MSMoM) is pres...
Analysing and optimising electromagnetic structures like filters, multiplexers, printed circuits and...
A numerically efficient technique for the analysis and design of MMIC circuits is introduced and app...
This paper describes a new moment-generation algorithm for efficient simulation of linear subnetwork...
We present a computational approach to the method of moments using Monte Carlo simulation. Simple al...
This Guide shows how to use the computer package EMM, whicih implements the estimator described in "...
A new preconditioner for Method of Moments computations is presented. It is based on a direct solver...
Fast-multipole and precorrected-FFT accelerated iterative methods have substantially improved the ef...
In this work we address the conceptualisation of a Simulation Environment for the development of mul...
We present MOMENTS, a newly developed software library lbr Monte Carlo simulation of semiconductor d...
A variety of numerical techniques are used in electromagnetic compatibility (EMC) for the numerical ...
Abstract—The paper gives arguments for the topicality of electromagnetic compatibility modeling. Tre...
The Method of Moments (MoM, also referred to as the Boundary Element Method outside of electromagnet...
This manuscript deals with optimizing the numerical method called the method of moments (MoM). This ...
The Method of Moments (MoM) is a numerical technique used to approximately solve linear operator equ...
In this paper, a MultiStructure computation technique based on the Method of Moments (MSMoM) is pres...
Analysing and optimising electromagnetic structures like filters, multiplexers, printed circuits and...
A numerically efficient technique for the analysis and design of MMIC circuits is introduced and app...
This paper describes a new moment-generation algorithm for efficient simulation of linear subnetwork...
We present a computational approach to the method of moments using Monte Carlo simulation. Simple al...
This Guide shows how to use the computer package EMM, whicih implements the estimator described in "...
A new preconditioner for Method of Moments computations is presented. It is based on a direct solver...
Fast-multipole and precorrected-FFT accelerated iterative methods have substantially improved the ef...
In this work we address the conceptualisation of a Simulation Environment for the development of mul...
We present MOMENTS, a newly developed software library lbr Monte Carlo simulation of semiconductor d...