Titre :	Finite Element Method Electromagnetics : antennas, microwave circuits and scattering applications
Type de document :	texte imprimé
Auteurs :	John L. Volakis, Auteur ; Arindam Chatterjee, Auteur ; Leo C. Kempel, Auteur
Editeur :	New York : The Institution of Electrical and Electronics Engineers,inc.
Année de publication :	1998
Collection :	IEEE/OUP Series on Electromagnetic Wave Theory
Importance :	344 p.
Présentation :	couv. ill.,ill.
Format :	25,4 cm.
ISBN/ISSN/EAN :	978-0-7803-3425-0
Langues :	Anglais (eng)
Catégories :	TELECOMMUNICATION
Index. décimale :	28-03 Antennes-radars-sonars
Résumé :	Employed in a large number of commercial electromagnetic simulation packages, the finite element method is one of the most popular and well-established numerical techniques in engineering. This book covers the theory, development, implementation, and application of the finite element method and its hybrid versions to electromagnetics. FINITE ELEMENT METHOD FOR ELECTROMAGNETICS begins with a step-by-step textbook presentation of the finite method and its variations then goes on to provide up-to-date coverage of three dimensional formulations and modern applications to open and closed domain problems. -Topics covered include: Galerkin's and Ritz methods One- and two-dimensional theory and applications Three-dimensional development of the method using edge elements and applications Mesh truncation schemes Matlab sample codes Efficient implementation of the finite element method, sparse matrix storage schemes, popular iterative solvers, eigenvalue solutions Experiences on code porting to parallel computers Integral algorithms for fast implementation of the boundary integral matrix-vector products. Written by experts who have extensive experience in both teaching and implementing this method to many applications, Finite Element Method for Electromagnetics a can be used as a textbook for first-year graduate students, as well as a handy reference for engineers and scientists interested in computational electromagnetics.
Note de contenu :	Table of Contents Chapter 1 Fundamental Concepts. Chapter 2 Shape Functions for Scalar and Vector Finite Elements. Chapter 3 Overview of the Finite Element Method: One-Dimensional Examples. Chapter 4 Two-Dimensional Applications. Chapter 5 Three-Dimensional Problems: Closed Domain. Chapter 6 Three-Dimensional Problems: Radiation and Scattering. Chapter 7 Three-Dimensional FE-BI Method. Chapter 8 Fast Integral Methods (S. Bindiganavale and J.L. Volakis). Chapter 9 Numerical Issues. -Index.

Finite Element Method Electromagnetics : antennas, microwave circuits and scattering applications [texte imprimé] / John L. Volakis, Auteur ; Arindam Chatterjee, Auteur ; Leo C. Kempel, Auteur . - New York : The Institution of Electrical and Electronics Engineers,inc., 1998 . - 344 p. : couv. ill.,ill. ; 25,4 cm.. - (IEEE/OUP Series on Electromagnetic Wave Theory) .
ISBN : 978-0-7803-3425-0
Langues : Anglais (eng)

Catégories :	TELECOMMUNICATION
Index. décimale :	28-03 Antennes-radars-sonars
Résumé :	Employed in a large number of commercial electromagnetic simulation packages, the finite element method is one of the most popular and well-established numerical techniques in engineering. This book covers the theory, development, implementation, and application of the finite element method and its hybrid versions to electromagnetics. FINITE ELEMENT METHOD FOR ELECTROMAGNETICS begins with a step-by-step textbook presentation of the finite method and its variations then goes on to provide up-to-date coverage of three dimensional formulations and modern applications to open and closed domain problems. -Topics covered include: Galerkin's and Ritz methods One- and two-dimensional theory and applications Three-dimensional development of the method using edge elements and applications Mesh truncation schemes Matlab sample codes Efficient implementation of the finite element method, sparse matrix storage schemes, popular iterative solvers, eigenvalue solutions Experiences on code porting to parallel computers Integral algorithms for fast implementation of the boundary integral matrix-vector products. Written by experts who have extensive experience in both teaching and implementing this method to many applications, Finite Element Method for Electromagnetics a can be used as a textbook for first-year graduate students, as well as a handy reference for engineers and scientists interested in computational electromagnetics.
Note de contenu :	Table of Contents Chapter 1 Fundamental Concepts. Chapter 2 Shape Functions for Scalar and Vector Finite Elements. Chapter 3 Overview of the Finite Element Method: One-Dimensional Examples. Chapter 4 Two-Dimensional Applications. Chapter 5 Three-Dimensional Problems: Closed Domain. Chapter 6 Three-Dimensional Problems: Radiation and Scattering. Chapter 7 Three-Dimensional FE-BI Method. Chapter 8 Fast Integral Methods (S. Bindiganavale and J.L. Volakis). Chapter 9 Numerical Issues. -Index.