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Affiner la recherche Interroger des sources externesSubsynchronous resonance in power systems / P.M. Anderson
Titre : Subsynchronous resonance in power systems Type de document : texte imprimé Auteurs : P.M. Anderson, Auteur ; Basant L. Agrawal, Auteur ; J. E. Van Ness, Auteur Editeur : New York : The Institution of Electrical and Electronics Engineers,inc. Année de publication : 1990 Collection : IEEE press Importance : 268 p. Présentation : couv. ill. en coul., ill. Format : 24 cm. ISBN/ISSN/EAN : 978-0-7803-5350-3 Langues : Anglais (eng) Catégories : ELECTROTECHNIQUE Index. décimale : 10-05 Electronique de puissance et industrielle Résumé : Subsynchronous Resonance in Power Systems provides in-depth guidance toward the parameters, modeling, and analysis of this complex subclass of power systems. Emphasizing field testing to determine the data required, this book facilitates thorough and efficient oscillation and damping modeling using eigenvalues of a system's linear model. Expert discussion provides step-by-step instruction for generator, network, and turbine-generator shaft models, followed by detailed tutorials for model testing and analysis based on IEEE, CORPALS, and SSR eigenvalue analysis. Comprehensive in scope and practical in focus, this book is an invaluable resource for anyone working with frequencies below 60 Hz. Note de contenu : Table of contents:
PART 1: INTRODUCTION.
Chapter 1: Introduction.
PART 2: SYSTEM MODELING.
Chapter 2: The Generator Model.
2.1 The Synchronous Machine Structure.
2.2 The Machine Circuit Inductances.
2.3 Park's Transformation.
2.4 The Voltage Equations.
2.5 The Power and Torque Equations.
2.6 Normalization of the Equations.
2.7 Analysis of the Direct Axis Equations.
2.8 Analysis of the Quadrature Axis Equations.
2.9 Summary of Machine Equations.
2.10 Machine-Network Interface Equations.
2.11 Linear State-Space Machine Equations.
2.12 Excitation Systems.
2.13 Synchronous Machine Saturation.
Chapter 3: The Network Model.
3.1 An Introductory Example.
3.2 The Degenerate Network.
3.3 The Order of Complexity of the Network.
3.4 Finding the Network State Equations.
3.5 Transforming the State Equations.
3.6 Generator Frequency Transformation.
3.7 Modulation of the 60 Hz Network Response.
Chapter 4: The Turbine-Generator Shaft Model.
4.1 Definitions and Conventions.
4.2 The Shaft Torque Equations.
4.3 The Shaft Power Equations.
4.4 Normalization of the Shaft Equations.
4.5 The Incremental Shaft Equations.
4.6 The Turbine Model.
4.7 The Complete Turbine and Shaft Model.
PART 3: SYSTEM PARAMETERS.
Chapter 5: Synchronous Generator Model Parameters.
5.1 Conventional Stability Data.
5.1.1 Approximations Involved in Parameter Computation.
5.2 Measured Data from Field Tests.
5.3 Parameter Fitting from Test Results.
5.4 Sample Test Results.
5.5 Frequency Dependent R and X Data.
5.6 Other Sources of Data.
Chapter 6: Turbine-Generator Shaft Model Parameters.
6.1 The Shaft Spring-Mass Model.
6.2 The Modal Model.
6.3 Field Tests for Frequencies and Damping.
6.4 Damping Tests.
PART 4: SYSTEM ANALYSIS.
Chapter 7: Eigen Analysis.
7.1 State-Space Form of System Equations.
7.2 Solution of the State Equations.
7.3 Finding Eigenvalues and Eigenvectors.
Chapter 8: SSR Eigenvalue Analysis.
8.1 The IEEE First Benchmark Model.
8.2 The IEEE Second Benchmark Model.
8.3 The CORPALS Benchmark Model.
8.4 An Example of SSR Eigenvalue Analysis.
Index.Subsynchronous resonance in power systems [texte imprimé] / P.M. Anderson, Auteur ; Basant L. Agrawal, Auteur ; J. E. Van Ness, Auteur . - New York : The Institution of Electrical and Electronics Engineers,inc., 1990 . - 268 p. : couv. ill. en coul., ill. ; 24 cm.. - (IEEE press) .
ISBN : 978-0-7803-5350-3
Langues : Anglais (eng)
Catégories : ELECTROTECHNIQUE Index. décimale : 10-05 Electronique de puissance et industrielle Résumé : Subsynchronous Resonance in Power Systems provides in-depth guidance toward the parameters, modeling, and analysis of this complex subclass of power systems. Emphasizing field testing to determine the data required, this book facilitates thorough and efficient oscillation and damping modeling using eigenvalues of a system's linear model. Expert discussion provides step-by-step instruction for generator, network, and turbine-generator shaft models, followed by detailed tutorials for model testing and analysis based on IEEE, CORPALS, and SSR eigenvalue analysis. Comprehensive in scope and practical in focus, this book is an invaluable resource for anyone working with frequencies below 60 Hz. Note de contenu : Table of contents:
PART 1: INTRODUCTION.
Chapter 1: Introduction.
PART 2: SYSTEM MODELING.
Chapter 2: The Generator Model.
2.1 The Synchronous Machine Structure.
2.2 The Machine Circuit Inductances.
2.3 Park's Transformation.
2.4 The Voltage Equations.
2.5 The Power and Torque Equations.
2.6 Normalization of the Equations.
2.7 Analysis of the Direct Axis Equations.
2.8 Analysis of the Quadrature Axis Equations.
2.9 Summary of Machine Equations.
2.10 Machine-Network Interface Equations.
2.11 Linear State-Space Machine Equations.
2.12 Excitation Systems.
2.13 Synchronous Machine Saturation.
Chapter 3: The Network Model.
3.1 An Introductory Example.
3.2 The Degenerate Network.
3.3 The Order of Complexity of the Network.
3.4 Finding the Network State Equations.
3.5 Transforming the State Equations.
3.6 Generator Frequency Transformation.
3.7 Modulation of the 60 Hz Network Response.
Chapter 4: The Turbine-Generator Shaft Model.
4.1 Definitions and Conventions.
4.2 The Shaft Torque Equations.
4.3 The Shaft Power Equations.
4.4 Normalization of the Shaft Equations.
4.5 The Incremental Shaft Equations.
4.6 The Turbine Model.
4.7 The Complete Turbine and Shaft Model.
PART 3: SYSTEM PARAMETERS.
Chapter 5: Synchronous Generator Model Parameters.
5.1 Conventional Stability Data.
5.1.1 Approximations Involved in Parameter Computation.
5.2 Measured Data from Field Tests.
5.3 Parameter Fitting from Test Results.
5.4 Sample Test Results.
5.5 Frequency Dependent R and X Data.
5.6 Other Sources of Data.
Chapter 6: Turbine-Generator Shaft Model Parameters.
6.1 The Shaft Spring-Mass Model.
6.2 The Modal Model.
6.3 Field Tests for Frequencies and Damping.
6.4 Damping Tests.
PART 4: SYSTEM ANALYSIS.
Chapter 7: Eigen Analysis.
7.1 State-Space Form of System Equations.
7.2 Solution of the State Equations.
7.3 Finding Eigenvalues and Eigenvectors.
Chapter 8: SSR Eigenvalue Analysis.
8.1 The IEEE First Benchmark Model.
8.2 The IEEE Second Benchmark Model.
8.3 The CORPALS Benchmark Model.
8.4 An Example of SSR Eigenvalue Analysis.
Index.Exemplaires
Code-barres Cote Support Localisation Section Disponibilité N.Inventaire 1686 10-05-49 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 1686
Titre : Engineering Electromagnetic Compatibility : principles, measurements, technologies, and computer models Type de document : texte imprimé Auteurs : V. Prasad Kodali, Auteur Mention d'édition : 2nd. ed. Editeur : New York : The Institution of Electrical and Electronics Engineers,inc. Année de publication : 2001 Importance : 453 p. Présentation : couv. ill. en coul., ill. Format : 26 cm. ISBN/ISSN/EAN : 978-0-7803-4743-4 Langues : Anglais (eng) Catégories : ELECTROTECHNIQUE Index. décimale : 10-06 Electromagnétisme Résumé : This practical, enhanced second edition will teach you to avoid costly post-design electromagnetic compatibility (EMC) fixes. Once again, V. Prasad Kodali provides a comprehensive introduction to EMC and presents current technical information on sources of electromagnetic interference (EMI), EMC/EMI measurements, technologies to control EMI, computer simulation and design, and international EMC standards.
Features added to this second edition include:
Two new chapters covering EMC computer modeling and simulation and signal integrity
Expanded assignments at the close of each chapter
Illustrative examples that enhance comprehension
A new appendix that lists a selected bibliography, important standards, and Web sites relevant to EMC/EMI
Engineering Electromagnetic Compatibility, Second Edition is presented in a concise, user-friendly format that combines a rigorous solutions-based, mathematical treatment of the underlying theories of EMC with the most recent practical applications. It is ideally suited as a desk reference for practicing engineers and as a textbook for students who need to understand the form and function of EMC and its relevance to a variety of systems.Note de contenu : Table of contents
Chapter 1 Introduction.
Chapter 2 Natural and Nuclear Sources of EMI.
Chapter 3 EMI From Apparatus and Circuits.
Chapter 4 Probabilistic and Statistical Physical Models.
Chapter 5 Open-Area Test Sites.
Chapter 6 Radiated Interference Measurements.
Chapter 7 Conducted Interference Measurements.
Chapter 8 Pulsed Interference Immunity.
Chapter 9 Grounding, Shielding, and Bonding.
Chapter 10 EMI Filters.
Chapter 11 Cables, Connectors, and Components.
Chapter 12 Frequency Assignment and Spectrum Conservation.
Chapter 13 EMC Computer Modeling and Simulation.
Chapter 14 Signal Integrity.
Chapter 15 EMC Standards.
Chapter 16 Selected Bibliography.
Appendix 1: EMC Terminology.
Appendix 2: EMI/EMC Units.
Appendix 3: Books On Related Topics.
Appendix 4: EMI/EMC Standards.
Appendix 5: EMC e-Resources.
Index.Engineering Electromagnetic Compatibility : principles, measurements, technologies, and computer models [texte imprimé] / V. Prasad Kodali, Auteur . - 2nd. ed. . - New York : The Institution of Electrical and Electronics Engineers,inc., 2001 . - 453 p. : couv. ill. en coul., ill. ; 26 cm.
ISBN : 978-0-7803-4743-4
Langues : Anglais (eng)
Catégories : ELECTROTECHNIQUE Index. décimale : 10-06 Electromagnétisme Résumé : This practical, enhanced second edition will teach you to avoid costly post-design electromagnetic compatibility (EMC) fixes. Once again, V. Prasad Kodali provides a comprehensive introduction to EMC and presents current technical information on sources of electromagnetic interference (EMI), EMC/EMI measurements, technologies to control EMI, computer simulation and design, and international EMC standards.
Features added to this second edition include:
Two new chapters covering EMC computer modeling and simulation and signal integrity
Expanded assignments at the close of each chapter
Illustrative examples that enhance comprehension
A new appendix that lists a selected bibliography, important standards, and Web sites relevant to EMC/EMI
Engineering Electromagnetic Compatibility, Second Edition is presented in a concise, user-friendly format that combines a rigorous solutions-based, mathematical treatment of the underlying theories of EMC with the most recent practical applications. It is ideally suited as a desk reference for practicing engineers and as a textbook for students who need to understand the form and function of EMC and its relevance to a variety of systems.Note de contenu : Table of contents
Chapter 1 Introduction.
Chapter 2 Natural and Nuclear Sources of EMI.
Chapter 3 EMI From Apparatus and Circuits.
Chapter 4 Probabilistic and Statistical Physical Models.
Chapter 5 Open-Area Test Sites.
Chapter 6 Radiated Interference Measurements.
Chapter 7 Conducted Interference Measurements.
Chapter 8 Pulsed Interference Immunity.
Chapter 9 Grounding, Shielding, and Bonding.
Chapter 10 EMI Filters.
Chapter 11 Cables, Connectors, and Components.
Chapter 12 Frequency Assignment and Spectrum Conservation.
Chapter 13 EMC Computer Modeling and Simulation.
Chapter 14 Signal Integrity.
Chapter 15 EMC Standards.
Chapter 16 Selected Bibliography.
Appendix 1: EMC Terminology.
Appendix 2: EMI/EMC Units.
Appendix 3: Books On Related Topics.
Appendix 4: EMI/EMC Standards.
Appendix 5: EMC e-Resources.
Index.Exemplaires
Code-barres Cote Support Localisation Section Disponibilité N.Inventaire 1012 10-06-18 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 1012
Titre : Field Computation by Moment Methods Type de document : texte imprimé Auteurs : Roger F. Harrington, Auteur Editeur : New York : The Institution of Electrical and Electronics Engineers,inc. Année de publication : 2000 Collection : IEEE Press Series on Electromagnetic Wave Importance : 229 p. Présentation : couv. ill.,ill. Format : 23,5 cm. ISBN/ISSN/EAN : 978-0-7803-1014-8 Langues : Anglais (eng) Catégories : ELECTROTECHNIQUE Index. décimale : 10-06 Electromagnétisme Résumé : "An IEEE reprinting of this classic 1968 edition, FIELD COMPUTATION BY MOMENT METHODS is the first book to explore the computation of electromagnetic fields by the most popular method for the numerical solution to electromagnetic field problems. It presents a unified approach to moment methods by employing the concepts of linear spaces and functional analysis. Written especially for those who have a minimal amount of experience in electromagnetic theory, this book illustrates theoretical and mathematical concepts to prepare all readers with the skills they need to apply the method of moments to new, engineering-related problems.
Written especially for those who have a minimal amount of experience in electromagnetic theory, theoretical and mathematical concepts are illustrated by examples that prepare all readers with the skills they need to apply the method of moments to new, engineering-related problems."Note de contenu : Contents
CHAPTER 1 Deterministic Problem
CHAPTER 2 Electrostatic Fields
CHAPTER 3 Two-Dimensional Electromagnetic Fields
CHAPTER 4 Wire Antennas and Scatterers
CHAPTER 5 Generalized Network Parameters
CHAPTER 6 Multiport Systems
CHAPTER 7 Elgenvalue Problems
CHAPTER 8 Cylindrical Waveguides
CHAPTER 9 Cavity Resonators
CHAPTER 1O Optimizaton
Appendix A. Linear Spaces and Mapping
Appendix R. Matrix Inversion
Appendix c Matrix Eigenvalue and Eigenvectors
IndexField Computation by Moment Methods [texte imprimé] / Roger F. Harrington, Auteur . - New York : The Institution of Electrical and Electronics Engineers,inc., 2000 . - 229 p. : couv. ill.,ill. ; 23,5 cm.. - (IEEE Press Series on Electromagnetic Wave) .
ISBN : 978-0-7803-1014-8
Langues : Anglais (eng)
Catégories : ELECTROTECHNIQUE Index. décimale : 10-06 Electromagnétisme Résumé : "An IEEE reprinting of this classic 1968 edition, FIELD COMPUTATION BY MOMENT METHODS is the first book to explore the computation of electromagnetic fields by the most popular method for the numerical solution to electromagnetic field problems. It presents a unified approach to moment methods by employing the concepts of linear spaces and functional analysis. Written especially for those who have a minimal amount of experience in electromagnetic theory, this book illustrates theoretical and mathematical concepts to prepare all readers with the skills they need to apply the method of moments to new, engineering-related problems.
Written especially for those who have a minimal amount of experience in electromagnetic theory, theoretical and mathematical concepts are illustrated by examples that prepare all readers with the skills they need to apply the method of moments to new, engineering-related problems."Note de contenu : Contents
CHAPTER 1 Deterministic Problem
CHAPTER 2 Electrostatic Fields
CHAPTER 3 Two-Dimensional Electromagnetic Fields
CHAPTER 4 Wire Antennas and Scatterers
CHAPTER 5 Generalized Network Parameters
CHAPTER 6 Multiport Systems
CHAPTER 7 Elgenvalue Problems
CHAPTER 8 Cylindrical Waveguides
CHAPTER 9 Cavity Resonators
CHAPTER 1O Optimizaton
Appendix A. Linear Spaces and Mapping
Appendix R. Matrix Inversion
Appendix c Matrix Eigenvalue and Eigenvectors
IndexExemplaires
Code-barres Cote Support Localisation Section Disponibilité N.Inventaire 1007 10-06-20 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 1007
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.Exemplaires
Code-barres Cote Support Localisation Section Disponibilité N.Inventaire 3694 28-03-31 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 3694 3695 28-03-31 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 3695
Titre : Computational Methods for Electromagnetics Type de document : texte imprimé Auteurs : Andrew F. Peterson, Auteur ; Scott L. Ray, Auteur ; Raj Mittra, 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 : 564 p. Présentation : couv. ill.,ill. Format : 26 cm. ISBN/ISSN/EAN : 978-0-7803-1122-0 Langues : Anglais (eng) Catégories : TELECOMMUNICATION Index. décimale : 28-04 Traitement du signal appliqué aux télécommunications Résumé : Computational Methods for Electromagnetics is an indispensable resource for making efficient and accurate formulations for electromagnetics applications and their numerical treatment. Employing a unified coherent approach that is unmatched in the field, the authors detail both integral and differential equations using the method of moments and finite-element procedures. In addition, readers will gain a thorough understanding of numerical solution procedures.
Topics covered include:
Two- and three-dimensional integral equation/method-of-moments formulations
Open-region finite-element formulations based on the scalar and vector Helmholtz equations
Finite difference time-domain methods
Direct and iterative algorithms for the solutions of linear systems
Error analysis and the convergence behavior of numerical results
Radiation boundary conditions
Acceleration methods for periodic Green's functions
Vector finite elements
Detail is provided to enable the reader to implement concepts in software and, in addition, a collection of related computer programs are available via the Internet. Computational Methods for Electromagnetics is designed for graduate-level classroom use or self-study, and every chapter includes problems. It will also be of particular interest to engineers working in the aerospace, defense, telecommunications, wireless, electromagnetic compatibility, and electronic packaging industries.Note de contenu : Table of contents
Chapter 1 Electromagnetic Theory.
Chapter 2 Integral Equation Methods for Scattering from Infinite Cylinders.
Chapter 3 Differential Equation Methods for Scattering from Infinite Cylinders.
Chapter 4 Algorithms for the Solution of Linear Systems of Equations.
Chapter 5 The Discretization Process. Basis/Testing Functions and Convergence.
Chapter 6 Alternative Surface Integral Equation Formulations.
Chapter 7 Strip Gratings and Other Two-Dimensional Structures with One-Dimensional Periodicity.
Chapter 8 Three-Dimensional problems with Translational or Rotational Symmetry.
Chapter 9 Subsectional Basis Functions for MultiDimensional and Vector Problems.
Chapter 10 Integral Equation Methods for Three-Dimensional Bodies.
Chapter 11 Frequency-Domain Differential Equation Formulations for Open Three-Dimensional Problems.
Chapter 12 Finite-Difference Time-Domain Methods on Orthogonal Meshes.
Appendix A: Quadrature.
Appendix B: Source-Field Relationships for Cylinders Illuminated by an Obliquely Incident Field.
Appendix C: Fortran Codes for TM Scattering From Perfect Electric Conducting Cylinders.
Appendix D: Additional Software Available Via the Internet.
Index.Computational Methods for Electromagnetics [texte imprimé] / Andrew F. Peterson, Auteur ; Scott L. Ray, Auteur ; Raj Mittra, Auteur . - New York : The Institution of Electrical and Electronics Engineers,inc., 1998 . - 564 p. : couv. ill.,ill. ; 26 cm.. - (IEEE/OUP Series on Electromagnetic Wave Theory) .
ISBN : 978-0-7803-1122-0
Langues : Anglais (eng)
Catégories : TELECOMMUNICATION Index. décimale : 28-04 Traitement du signal appliqué aux télécommunications Résumé : Computational Methods for Electromagnetics is an indispensable resource for making efficient and accurate formulations for electromagnetics applications and their numerical treatment. Employing a unified coherent approach that is unmatched in the field, the authors detail both integral and differential equations using the method of moments and finite-element procedures. In addition, readers will gain a thorough understanding of numerical solution procedures.
Topics covered include:
Two- and three-dimensional integral equation/method-of-moments formulations
Open-region finite-element formulations based on the scalar and vector Helmholtz equations
Finite difference time-domain methods
Direct and iterative algorithms for the solutions of linear systems
Error analysis and the convergence behavior of numerical results
Radiation boundary conditions
Acceleration methods for periodic Green's functions
Vector finite elements
Detail is provided to enable the reader to implement concepts in software and, in addition, a collection of related computer programs are available via the Internet. Computational Methods for Electromagnetics is designed for graduate-level classroom use or self-study, and every chapter includes problems. It will also be of particular interest to engineers working in the aerospace, defense, telecommunications, wireless, electromagnetic compatibility, and electronic packaging industries.Note de contenu : Table of contents
Chapter 1 Electromagnetic Theory.
Chapter 2 Integral Equation Methods for Scattering from Infinite Cylinders.
Chapter 3 Differential Equation Methods for Scattering from Infinite Cylinders.
Chapter 4 Algorithms for the Solution of Linear Systems of Equations.
Chapter 5 The Discretization Process. Basis/Testing Functions and Convergence.
Chapter 6 Alternative Surface Integral Equation Formulations.
Chapter 7 Strip Gratings and Other Two-Dimensional Structures with One-Dimensional Periodicity.
Chapter 8 Three-Dimensional problems with Translational or Rotational Symmetry.
Chapter 9 Subsectional Basis Functions for MultiDimensional and Vector Problems.
Chapter 10 Integral Equation Methods for Three-Dimensional Bodies.
Chapter 11 Frequency-Domain Differential Equation Formulations for Open Three-Dimensional Problems.
Chapter 12 Finite-Difference Time-Domain Methods on Orthogonal Meshes.
Appendix A: Quadrature.
Appendix B: Source-Field Relationships for Cylinders Illuminated by an Obliquely Incident Field.
Appendix C: Fortran Codes for TM Scattering From Perfect Electric Conducting Cylinders.
Appendix D: Additional Software Available Via the Internet.
Index.Exemplaires
Code-barres Cote Support Localisation Section Disponibilité N.Inventaire 621 28-04-06 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 621
