Quick finite elements for electromagnetic waves / / Giuseppe Pelosi, Roberto Coccioli |
Autore | Pelosi Giuseppe |
Edizione | [2nd ed.] |
Pubbl/distr/stampa | Boston : , : Artech House, , ©2009 |
Descrizione fisica | 1 online resource (310 p.) |
Disciplina | 621.3813 |
Altri autori (Persone) |
CoccioliRoberto
SelleriStefano |
Collana | Artech House electromagnetic analysis series |
Soggetto topico |
Electrical engineering
Electromagnetic waves - Technique Finite element method - Data processing |
Soggetto genere / forma | Electronic books. |
ISBN | 1-59693-346-1 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Quick Finite Elements for Electromagnetic Waves Second Edition; Contents; Preface; Preface to the First Edition; How to Use Quick FEM; PART I Two Dimensions; Chapter 1 Getting Started: ShieldedMicrostrip Lines; 1.1 First Step: Preprocessing; 1.2 Second Step: Building Element Matrices; 1.3 Third Step: Assembling the Global Matrix; 1.4 Fourth Step: Minimizing the Functional; 1.5 Fifth Step: Postprocessing; 1.6 Variational or Projective?; References; Chapter 2 Tools; 2.1 Preprocessing; 2.1.1 Input Geometry Description File; 2.1.2 Output Mesh Description File; 2.1.3 Mesh Regularization
2.1.4 Numbering Optimization2.2 Element Matrices; 2.2.1 Nodal Elements; 2.2.2 Vector Elements; 2.3 Global Matrices; 2.3.1 The Band Storage Mode; 2.3.2 The Sparse Storage Mode; 2.4 Solving the Entire Problem; 2.5 Postprocessing; 2.6 The Matlab Framework; 2.6.1 Using the Interface; 2.6.2 The Data Framework; 2.6.3 How to Code Yourself; 2.7 Disc Description and Installation; 2.7.1 FORTRAN Framework; 2.7.2 Matlab Framework; References; Chapter 3 Microwave Guiding Structures:Characterization; 3.1 Homogeneous Waveguides; 3.2 Inhomogeneous Waveguides; 3.3 Inhomogeneous Waveguides: Formulation 3.4 Numerical Implementation3.5 The Code WG: Waveguides; 3.6 Some Examples; 3.7 Disc Content; 3.7.1 FORTRAN; 3.7.2 Matlab; References; Chapter 4 Microwave Guiding Structures:Devices and Circuits; 4.1 The Finite Element----Modal Expansion Formulation: H-Plane Case; 4.2 The Finite Element----Modal Expansion Formulation: E-Plane Case; 4.3 Implementation; 4.4 The Code EHDEV; 4.5 Some Examples; 4.6 Disc Content; 4.6.1 FORTRAN; 4.6.2 MATLAB; References; Chapter 5 Scattering and Antennas:Hybrid Methods; 5.1 Scattering by a Periodic Structure: Formulation; 5.2 Numerical Implementation 5.3 The Code GRATING5.4 Some Examples; 5.5 Disc Content; 5.5.1 FORTRAN; 5.5.2 Matlab; References; Chapter 6 Scattering and Antennas:Absorbing Boundary Conditions; 6.1 Analytic ABC; 6.2 Scattering Problems: Formulation with Analytic ABC; 6.3 Analytic ABC: Implementation; 6.4 The Concept of Perfectly Matched Anisotropic Absorber; 6.5 Antenna Problems: Formulation Using PMA; 6.6 PMA Implementation; 6.7 The Code CYL; 6.8 Code CYL: Some Examples; 6.9 The Code OWG; 6.10 Code OWG: Some Examples; 6.11 Disc Content; 6.11.1 FORTRAN; 6.11.2 Matlab; References; PART II Three Dimensions Chapter 7 Finite Elements in Three Dimensions7.1 Preprocessing; 7.1.1 Input Geometry Description File; 7.1.2 Output Mesh Description File; 7.2 Element Matrices; 7.2.1 Nodal Elements; 7.2.2 Vector Elements; 7.3 Global Matrices; 7.4 Solving the Linear System of Equations; 7.5 Disc Content; 7.5.1 3D-PART II; References; Chapter 8 Resonant Cavities; 8.1 Formulation of the Three-Dimensional Eigenvalue Problem; 8.2 Numerical Implementation; 8.3 The Code Cavity; 8.4 Code Cavity: Some Examples; 8.5 Disc Content; References; Chapter 9 Waveguide Devices; 9.1 Opening the Cavity: Formulation 9.2 Numerical Implementation |
Record Nr. | UNINA-9910456608703321 |
Pelosi Giuseppe
![]() |
||
Boston : , : Artech House, , ©2009 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Quick finite elements for electromagnetic waves / / Giuseppe Pelosi, Roberto Coccioli |
Autore | Pelosi Giuseppe |
Edizione | [2nd ed.] |
Pubbl/distr/stampa | Boston : , : Artech House, , ©2009 |
Descrizione fisica | 1 online resource (310 p.) |
Disciplina | 621.3813 |
Altri autori (Persone) |
CoccioliRoberto
SelleriStefano |
Collana | Artech House electromagnetic analysis series |
Soggetto topico |
Electrical engineering
Electromagnetic waves - Technique Finite element method - Data processing |
ISBN | 1-59693-346-1 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Quick Finite Elements for Electromagnetic Waves Second Edition; Contents; Preface; Preface to the First Edition; How to Use Quick FEM; PART I Two Dimensions; Chapter 1 Getting Started: ShieldedMicrostrip Lines; 1.1 First Step: Preprocessing; 1.2 Second Step: Building Element Matrices; 1.3 Third Step: Assembling the Global Matrix; 1.4 Fourth Step: Minimizing the Functional; 1.5 Fifth Step: Postprocessing; 1.6 Variational or Projective?; References; Chapter 2 Tools; 2.1 Preprocessing; 2.1.1 Input Geometry Description File; 2.1.2 Output Mesh Description File; 2.1.3 Mesh Regularization
2.1.4 Numbering Optimization2.2 Element Matrices; 2.2.1 Nodal Elements; 2.2.2 Vector Elements; 2.3 Global Matrices; 2.3.1 The Band Storage Mode; 2.3.2 The Sparse Storage Mode; 2.4 Solving the Entire Problem; 2.5 Postprocessing; 2.6 The Matlab Framework; 2.6.1 Using the Interface; 2.6.2 The Data Framework; 2.6.3 How to Code Yourself; 2.7 Disc Description and Installation; 2.7.1 FORTRAN Framework; 2.7.2 Matlab Framework; References; Chapter 3 Microwave Guiding Structures:Characterization; 3.1 Homogeneous Waveguides; 3.2 Inhomogeneous Waveguides; 3.3 Inhomogeneous Waveguides: Formulation 3.4 Numerical Implementation3.5 The Code WG: Waveguides; 3.6 Some Examples; 3.7 Disc Content; 3.7.1 FORTRAN; 3.7.2 Matlab; References; Chapter 4 Microwave Guiding Structures:Devices and Circuits; 4.1 The Finite Element----Modal Expansion Formulation: H-Plane Case; 4.2 The Finite Element----Modal Expansion Formulation: E-Plane Case; 4.3 Implementation; 4.4 The Code EHDEV; 4.5 Some Examples; 4.6 Disc Content; 4.6.1 FORTRAN; 4.6.2 MATLAB; References; Chapter 5 Scattering and Antennas:Hybrid Methods; 5.1 Scattering by a Periodic Structure: Formulation; 5.2 Numerical Implementation 5.3 The Code GRATING5.4 Some Examples; 5.5 Disc Content; 5.5.1 FORTRAN; 5.5.2 Matlab; References; Chapter 6 Scattering and Antennas:Absorbing Boundary Conditions; 6.1 Analytic ABC; 6.2 Scattering Problems: Formulation with Analytic ABC; 6.3 Analytic ABC: Implementation; 6.4 The Concept of Perfectly Matched Anisotropic Absorber; 6.5 Antenna Problems: Formulation Using PMA; 6.6 PMA Implementation; 6.7 The Code CYL; 6.8 Code CYL: Some Examples; 6.9 The Code OWG; 6.10 Code OWG: Some Examples; 6.11 Disc Content; 6.11.1 FORTRAN; 6.11.2 Matlab; References; PART II Three Dimensions Chapter 7 Finite Elements in Three Dimensions7.1 Preprocessing; 7.1.1 Input Geometry Description File; 7.1.2 Output Mesh Description File; 7.2 Element Matrices; 7.2.1 Nodal Elements; 7.2.2 Vector Elements; 7.3 Global Matrices; 7.4 Solving the Linear System of Equations; 7.5 Disc Content; 7.5.1 3D-PART II; References; Chapter 8 Resonant Cavities; 8.1 Formulation of the Three-Dimensional Eigenvalue Problem; 8.2 Numerical Implementation; 8.3 The Code Cavity; 8.4 Code Cavity: Some Examples; 8.5 Disc Content; References; Chapter 9 Waveguide Devices; 9.1 Opening the Cavity: Formulation 9.2 Numerical Implementation |
Record Nr. | UNINA-9910781199003321 |
Pelosi Giuseppe
![]() |
||
Boston : , : Artech House, , ©2009 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Quick finite elements for electromagnetic waves / / Giuseppe Pelosi, Roberto Coccioli, Stefano Selleri |
Autore | Pelosi Giuseppe |
Edizione | [2nd ed.] |
Pubbl/distr/stampa | Norwood, Mass. ; ; London, : Artech House, c2009 |
Descrizione fisica | 1 online resource (310 p.) |
Disciplina | 621.3813 |
Altri autori (Persone) |
CoccioliRoberto
SelleriStefano |
Collana | Artech House electromagnetic analysis series |
Soggetto topico |
Electrical engineering
Electromagnetic waves - Technique Finite element method - Data processing |
ISBN | 1-59693-346-1 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Quick Finite Elements for Electromagnetic Waves Second Edition; Contents; Preface; Preface to the First Edition; How to Use Quick FEM; PART I Two Dimensions; Chapter 1 Getting Started: ShieldedMicrostrip Lines; 1.1 First Step: Preprocessing; 1.2 Second Step: Building Element Matrices; 1.3 Third Step: Assembling the Global Matrix; 1.4 Fourth Step: Minimizing the Functional; 1.5 Fifth Step: Postprocessing; 1.6 Variational or Projective?; References; Chapter 2 Tools; 2.1 Preprocessing; 2.1.1 Input Geometry Description File; 2.1.2 Output Mesh Description File; 2.1.3 Mesh Regularization
2.1.4 Numbering Optimization2.2 Element Matrices; 2.2.1 Nodal Elements; 2.2.2 Vector Elements; 2.3 Global Matrices; 2.3.1 The Band Storage Mode; 2.3.2 The Sparse Storage Mode; 2.4 Solving the Entire Problem; 2.5 Postprocessing; 2.6 The Matlab Framework; 2.6.1 Using the Interface; 2.6.2 The Data Framework; 2.6.3 How to Code Yourself; 2.7 Disc Description and Installation; 2.7.1 FORTRAN Framework; 2.7.2 Matlab Framework; References; Chapter 3 Microwave Guiding Structures:Characterization; 3.1 Homogeneous Waveguides; 3.2 Inhomogeneous Waveguides; 3.3 Inhomogeneous Waveguides: Formulation 3.4 Numerical Implementation3.5 The Code WG: Waveguides; 3.6 Some Examples; 3.7 Disc Content; 3.7.1 FORTRAN; 3.7.2 Matlab; References; Chapter 4 Microwave Guiding Structures:Devices and Circuits; 4.1 The Finite Element----Modal Expansion Formulation: H-Plane Case; 4.2 The Finite Element----Modal Expansion Formulation: E-Plane Case; 4.3 Implementation; 4.4 The Code EHDEV; 4.5 Some Examples; 4.6 Disc Content; 4.6.1 FORTRAN; 4.6.2 MATLAB; References; Chapter 5 Scattering and Antennas:Hybrid Methods; 5.1 Scattering by a Periodic Structure: Formulation; 5.2 Numerical Implementation 5.3 The Code GRATING5.4 Some Examples; 5.5 Disc Content; 5.5.1 FORTRAN; 5.5.2 Matlab; References; Chapter 6 Scattering and Antennas:Absorbing Boundary Conditions; 6.1 Analytic ABC; 6.2 Scattering Problems: Formulation with Analytic ABC; 6.3 Analytic ABC: Implementation; 6.4 The Concept of Perfectly Matched Anisotropic Absorber; 6.5 Antenna Problems: Formulation Using PMA; 6.6 PMA Implementation; 6.7 The Code CYL; 6.8 Code CYL: Some Examples; 6.9 The Code OWG; 6.10 Code OWG: Some Examples; 6.11 Disc Content; 6.11.1 FORTRAN; 6.11.2 Matlab; References; PART II Three Dimensions Chapter 7 Finite Elements in Three Dimensions7.1 Preprocessing; 7.1.1 Input Geometry Description File; 7.1.2 Output Mesh Description File; 7.2 Element Matrices; 7.2.1 Nodal Elements; 7.2.2 Vector Elements; 7.3 Global Matrices; 7.4 Solving the Linear System of Equations; 7.5 Disc Content; 7.5.1 3D-PART II; References; Chapter 8 Resonant Cavities; 8.1 Formulation of the Three-Dimensional Eigenvalue Problem; 8.2 Numerical Implementation; 8.3 The Code Cavity; 8.4 Code Cavity: Some Examples; 8.5 Disc Content; References; Chapter 9 Waveguide Devices; 9.1 Opening the Cavity: Formulation 9.2 Numerical Implementation |
Record Nr. | UNINA-9910823886503321 |
Pelosi Giuseppe
![]() |
||
Norwood, Mass. ; ; London, : Artech House, c2009 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|