Time and Frequency Domain Solutions of EM Problems: Using Integral Equations and a Hybrid Methodology
Numerical solutions of electromagnetic field problems is an area of paramount interest in academia, industry and government. This book provides a compendium of solution techniques dealing with integral equations arising in electromagnetic field problems in time and frequency domains. Written by leading researchers in the field, it documents the authors' unique space/time separation approach using Laguerre polynomials. Numerous examples that illustrate the various methodologies and user-friendly computer codes make this volume highly accessible for engineers, researchers, and scientists.
1101191071
Time and Frequency Domain Solutions of EM Problems: Using Integral Equations and a Hybrid Methodology
Numerical solutions of electromagnetic field problems is an area of paramount interest in academia, industry and government. This book provides a compendium of solution techniques dealing with integral equations arising in electromagnetic field problems in time and frequency domains. Written by leading researchers in the field, it documents the authors' unique space/time separation approach using Laguerre polynomials. Numerous examples that illustrate the various methodologies and user-friendly computer codes make this volume highly accessible for engineers, researchers, and scientists.
122.95 In Stock
Time and Frequency Domain Solutions of EM Problems: Using Integral Equations and a Hybrid Methodology

Time and Frequency Domain Solutions of EM Problems: Using Integral Equations and a Hybrid Methodology

Time and Frequency Domain Solutions of EM Problems: Using Integral Equations and a Hybrid Methodology

Time and Frequency Domain Solutions of EM Problems: Using Integral Equations and a Hybrid Methodology

Overview

Numerical solutions of electromagnetic field problems is an area of paramount interest in academia, industry and government. This book provides a compendium of solution techniques dealing with integral equations arising in electromagnetic field problems in time and frequency domains. Written by leading researchers in the field, it documents the authors' unique space/time separation approach using Laguerre polynomials. Numerous examples that illustrate the various methodologies and user-friendly computer codes make this volume highly accessible for engineers, researchers, and scientists.

Product Details

ISBN-13: 9780470487679
Publisher: Wiley
Publication date: 11/09/2010
Series: Wiley Series in Microwave and Optical Engineering , #220
Pages: 516
Product dimensions: 6.30(w) x 9.30(h) x 1.20(d)

About the Author

Baek Ho Jung is Associate Professor with the Department of Information and Communication Engineering, Hoseo University, Asan, Chungnam, Korea.

Tapan K. Sarkar is a Professor in the Department of Electrical and Computer Engineering, Syracuse University, New York. He has authored or coauthored more than 300 journal articles, numerous conference papers, 32 book chapters and 15 books.

Yu Zhang is Associate Professor of Xidian University and currently works at Syracuse University, New York.

Zhong Ji is an RF/Antenna engineer at Laird Technologies.

Mengtao Yuan has been with Cadence Design Systems, Inc. in Tempe, AZ since 2006.

Magdalena Salazar Palma is with the Departamento de Teoría de la Señal y Comunicaciones, Escuela Politécnica Superior of Universidad Carlos III de Madrid, Spain where she is Full Professor and Chairperson of the Department. She has authored more than 260 publications in books, scientific journals and symposium proceedings.

Sadasiva M. Rao has been teaching electromagnetic theory, communication systems, electrical circuits and other related courses for the last 25 years at various institutions. He is currently a Professor in the Dept. of Electrical Engineering at Auburn University, Alabama. Dr. Rao's research has had a tremendous impact on the electromagnetic community/industry.

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Table of Contents

Preface.

Acknowledgments.

List of Symbols.

Acronyms.

Chapter 1 Mathametical Basis of a Numerical Method.

Chapter 2 Analysis of Conducting Structures in the Frequency Domain.

Chapter 3 Analysis of Dielectric Objects in the Frequency Domain.

Chapter 4 Analysis of Composite Structures in the Frequency Domain.

Chapter 5 Analysis of Conducting Wires in the Time Domain.

Chapter 6 Analysis of Conducting Structures in the Time Domain.

Chapter 7 Analysis of Dielectric Structures in the Time Domain.

Chapter 8 An Improved Marching-on-in-Degree (MOD) Methodology.

Chapter 9 Numerical Examples for the New and Improved Marching-on-in-Degree (MOD) Method.

Chapter 10 A Hybrid Method Using Early-Time and Low-Frequency Information to Generate a Wideband Response.

Appendix User Guide for the Time and Frequency Domain EM Solver Using Integral Equations (TFDSIE).

Index.

About the Authors.

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