The paper describes principles of two non-standard numerical iterative methods of investigating the spatial arrangement of stationary or quasi-stationary fields, inspired by the anticipated real behaviour of the physical reality. This wave method simulates a field in which quantities propagate in accordance with generalized Huygens’ Principle in a discrete mesh. The basis of the method of the uniform energy distribution follows directly from the method’s name. The submitted illustrative examples show the possible applications of both the methods
A new local method for finite difference/finite element mesh truncation in the frequency domain is i...
This book presents a numerical scheme for the solution of field problems governed by partial differe...
This article gathers useful, simple algorithms and their physical interpretations for field solution...
The paper describes principles of two non-standard numerical iterative methods of investigating the ...
Abstract: There are presented the quasi-stationary electromagnetic fields simulation algor...
Covering the development of field computation in the past forty years, Field Models in Electricity a...
Abstract: Methods for a numerical solution of Maxwell's equations in the quasi-stationary ...
We present a new approach to the computation of an electrical field propagating in a dielectric stru...
In this paper, linear field problems with a varying physical parameter are solved with the conjugate...
Covering the development of field computation in the past forty years, the book intends to be a conc...
This article gathers useful, simple algorithms and their physical interpretations for field solution...
Abstract: The two-step algorithm for solving problems with a linear elliptic operator, for...
This article gathers useful, simple algorithms and their physical interpretations for field solution...
Many nonequilibrium phenomena are spatially extended, and the most popular means to model them is th...
<p>The energy method uses reciprocity works theorem and transformation of occurring hypersingular in...
A new local method for finite difference/finite element mesh truncation in the frequency domain is i...
This book presents a numerical scheme for the solution of field problems governed by partial differe...
This article gathers useful, simple algorithms and their physical interpretations for field solution...
The paper describes principles of two non-standard numerical iterative methods of investigating the ...
Abstract: There are presented the quasi-stationary electromagnetic fields simulation algor...
Covering the development of field computation in the past forty years, Field Models in Electricity a...
Abstract: Methods for a numerical solution of Maxwell's equations in the quasi-stationary ...
We present a new approach to the computation of an electrical field propagating in a dielectric stru...
In this paper, linear field problems with a varying physical parameter are solved with the conjugate...
Covering the development of field computation in the past forty years, the book intends to be a conc...
This article gathers useful, simple algorithms and their physical interpretations for field solution...
Abstract: The two-step algorithm for solving problems with a linear elliptic operator, for...
This article gathers useful, simple algorithms and their physical interpretations for field solution...
Many nonequilibrium phenomena are spatially extended, and the most popular means to model them is th...
<p>The energy method uses reciprocity works theorem and transformation of occurring hypersingular in...
A new local method for finite difference/finite element mesh truncation in the frequency domain is i...
This book presents a numerical scheme for the solution of field problems governed by partial differe...
This article gathers useful, simple algorithms and their physical interpretations for field solution...