A geometrical approach of the finite-element analysis applied to electrostatic fields is presented. This approach is particularly well adapted to teaching Finite Elements in Electrical Engineering courses at undergraduate level. The procedure leads to the same system of algebraic equations as that derived by classical approaches, such as variational principle or weighted residuals for nodal elements with plane symmetry. It is shown that the extension of the original procedure to three dimensions is straightforward, provided the domain be meshed in first-order tetrahedral elements. The element matrices are derived by applying Maxwell`s equations in integral form to suitably chosen surfaces in the finite-element mesh
The three dimensional magnetic vector potential (m.v.p.) variational formulation for magnetostatic f...
The aim is to construct the effective computer methods and algorithms for numerical analysis of the ...
The Boundary Element Method is applied to solve 3 D electromagnetic problems. The basic formulatio...
A geometrical approach of the finite-element analysis applied to electrostatic fields is presented. ...
Includes bibliographical references and index.xvi, 494 pages :This third edition of the principal te...
Three-dimensional computations of electromagnetic fields are presented with the aid of the method of...
Over the last thirty years, the finite element method has been established as a powerful and widely ...
The paper presents an application of the "Finite formulation of electromagnetic field" to the analys...
Abstract—The Finite Formulation is an alternative to the widely used Finite Elements or Edge Element...
The Finite Formulation is an alternative to the widely used Finite Elements or Edge Elements methods...
The paper deals with computation of 3D electrostatic fields (distribution of charges, electric poten...
The paper deals with computation of 3D electrostatic fields (distribution of charges, electric poten...
Purpose - The aim of this paper is to highlight the educational value of algebraic numerical methods...
Finite Element, Boundary Element, Finite Volume, and Finite Difference Analysis are all commonly use...
A circuit-oriented finite element method is presented to analyse the coupled problem of electrical c...
The three dimensional magnetic vector potential (m.v.p.) variational formulation for magnetostatic f...
The aim is to construct the effective computer methods and algorithms for numerical analysis of the ...
The Boundary Element Method is applied to solve 3 D electromagnetic problems. The basic formulatio...
A geometrical approach of the finite-element analysis applied to electrostatic fields is presented. ...
Includes bibliographical references and index.xvi, 494 pages :This third edition of the principal te...
Three-dimensional computations of electromagnetic fields are presented with the aid of the method of...
Over the last thirty years, the finite element method has been established as a powerful and widely ...
The paper presents an application of the "Finite formulation of electromagnetic field" to the analys...
Abstract—The Finite Formulation is an alternative to the widely used Finite Elements or Edge Element...
The Finite Formulation is an alternative to the widely used Finite Elements or Edge Elements methods...
The paper deals with computation of 3D electrostatic fields (distribution of charges, electric poten...
The paper deals with computation of 3D electrostatic fields (distribution of charges, electric poten...
Purpose - The aim of this paper is to highlight the educational value of algebraic numerical methods...
Finite Element, Boundary Element, Finite Volume, and Finite Difference Analysis are all commonly use...
A circuit-oriented finite element method is presented to analyse the coupled problem of electrical c...
The three dimensional magnetic vector potential (m.v.p.) variational formulation for magnetostatic f...
The aim is to construct the effective computer methods and algorithms for numerical analysis of the ...
The Boundary Element Method is applied to solve 3 D electromagnetic problems. The basic formulatio...