Time-domain Methods for Microwave Structures
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Time-domain Methods for Microwave Structures: Analysis and Design

Time-domain Methods for Microwave Structures: Analysis and Design


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About the Book

"This book thoroughly explains the application of Finite-difference Time-domain (FDTD) method to microwave structures. Providing the reader with the most comprehensive collection of material available on this subject, each chapter is composed of an introductory section that addresses the theoretical background of a specific component of the FDTD method and a collection of reprints of the most important papers. Each chapter is contributed by a well-known authority in the field and contains illustrative examples. Topics covered include: The numerical issues Geometry description of microwave structures Methods to reduce the requirements for excessive computational resources Parallel and vector processing All the topics covered in this book are essential components for successful application of the FDTD method to realistic structures."

Table of Contents:
Introduction to FDTD Method for Planar Microwave Structures (B. Houshmand & I. Itoh). Numerical Solution of Initial Boundary Value Problems Involving Maxwell's Equations in Isotropic Media (K. Yee). Modelling and Design of Millimetrewave Passive Circuits: From 2 to 3D (R. Sorrentino). Analysis of Electromagnetic Coupling Through a Thick Aperture in Multilayer Planar Circuits Using the Extended Spectral Domain Approach and Finite Difference Time-Domain Method (A. Tran, et al.). Modeling of Microwave Active Devices Using the FDTD Analysis Based on the Voltage-Source Approach (K. Kuo, et al.). Spatial Solution Deflection Mechanism Indicated by FD-TD Maxwell's Equations Modeling (R. Joseph & A. Taflove). Applications of the Nonlinear Finite Difference Time Domain (NL-FDTD) Method to Pulse Propagation in Nonlinear Media: Self-focusing and Linear-Nonlinear Interfaces (R. Ziolkowski & J. Judkins). Current and SAR Induced in a Human Head Model by the Electromagnetic Fields Irradiated from a Cellular Phone (H. Chen & H. Wang). Adaptation of FDTD Techniques to Acoustic Modelling (J. Maloney & K. Cummings) Numerical Issues Regarding Finite-Difference Time-Domain Modeling of Microwave Structures (A. Taflove). Numerical Solution of Steady-State Electromagnetic Scattering Problems Using the Time-Dependent Maxwell's Equations (A. Taflove & M. Brodwin). Absorbing Boundary Conditions for the Finite-Difference Approximation of the Time-Domain Electromagnetic-Field Equations (G. Mur). Finite-Difference Solution of Maxwell's Equations in Generalized Nonorthogonal Coordinates (R. Holland). The Finite-Difference--Time-Domain Method and its Application to Eigenvalue Problems ( D. Choi & W. Hoefer). Calculations of the Dispersive Characteristics of Microstrips by the Time-Domain Finite Difference Method (X. Zhang, et al.). Application of the Three-Dimensional Finite-Difference Time-Domain Method to the Analysis of Planar Microstrip Circuits (D. Sheen, et al.). Accurate Computation of the Radiation from Simple Antennas and Using the Finite-Difference Time-Domain Method (J. Maloney. et al.). The Use of Surface Impedance Concepts in the Finite-Difference Time-Domain Method (J. Maloney & G. Smith). FDTD for Nth-Order Dispersive Media (R. Leubbers & F. Hunsberger). FD-TD Modeling of Digital Signal Propagation in 3-D Circuits with Passive and Active Loads (M. Piket-May, et al.). A Perfectly Matched Layer for the Absorption of Electromagnetic Waves (J. Berenger). Using Linear and Non-Linear Predictors to Improve the Computational Efficiency of the FD-TD Algorithm (J. Chen, et al.). Divergence Preserving Discrete Surface Integral Methods for Maxwell's Curl Equations Using Non-orthogonal Unstructured Grids (N. Madsen). Conformal Finite-Difference Time-Domain Methods (C. Chan, et al.). Modeling Three-Dimensional Discontinuities in Waveguides Using Non-orthogonal FDTD Algorithm (J. Lee, et al.). Triangular-Domain Basis Functions for Full-Wave Analysis of Microstrip Discontinuities (R. Kipp & C. Chan). Conformal Finite-Difference Time-Domain (FDTD) with Overlapping Grids (K. Yee, et al.). A Locally Conformed Finite-Difference Time-Domain Algorithm of Modeling Arbitrary Shape Planar Metal Strips (J. Fang & J. Ren). A Vertex-Based Finite-Volume Time-Domain Method for Analyzing Waveguide Discontinuities (C. Chan & J. Elson). WETD--A Finite Element Time-Domain Approach for Solving Maxwell's Equations (J. Lee). Speed-Up Methods for the FDTD Algorithm (B. Houshmand & T. Itoh). Characterization of Microstrip Antennas Using the TLM Simulation Associated with a Prony-Pisarenko Method (J. Dubard, et al.). A Combination of FD-TD and Prony's Methods for Analyzing Microwave Integrated Circuits (M. Ko & R. Mittra) Enhancing Finite-Difference Time-Domain Analysis of Dielectric Resonators Using Spectrum Estimation Techniques (Z. Bi, et al.). Recursive Covariance Ladder Algorithms for ARMA System Identification (P. Strobach). The Segmentation Method--An Approach to the Analysis of Microwave Planar Circuits (T. Okoshi, et al) The Implementation of Time-Domain Diakoptics in the FDTD Method (T. Huang). Transmission Line Matrix Modeling of Dispersive Wide-Band Absorbing Boundaries with Time-Domain Diakoptics for S-Parameter Extraction (G. Costache & W. Hoefer). Fast Sequential FDTD Diakoptics Method Using the System Identification Technique (T. Huang, et al.). Efficient Implementation of the FDTD Algorithm on High- Performance Computers (S. Gedney). Special Purpose Computers for the Time Domain Advance of Maxwell's Equations (R. Larson, et al.). Predicting Scattering of Electromagnetic Fields Using the FD-TD on a Connection Machine (A. Perlik, et al.). A Connection Machine (CM-2) Implementation of a Three- Dimensional Parallel Finite Difference Time-Domain Code for Electromagnetic Field Simulation (D. Davidson, et al). Finite-Difference Time-Domain Analysis of Microwave Circuit Devices on High Performance Vector/Parallel Computers (S. Gedney). Parallel FDTD Simulator for MIMD Computers (U. Effing, et al.). Computational Fluid Dynamics on Parallel Processors (W. Gropp & E. Smith). A Parallel Planar Generalized Yee Algoroithm for the Analysis of Microwave Circuit Devices (S. Gedney & F. Lansing). Applications of Finite-Difference Time-Domain Technique to Planar Microwave Circuit Design (I. Wolff). Analysis of an Arbitrarily Shaped Planar Circuit--A Time- Domain Approach (W. Gwarek). Analysis of Arbitrarily Shaped Two-Dimensional Microwave Circuits by Finite-Difference Time-Domain Method (W. Gwarek). Calculations of the Dispersive Characteristics of Microstrips by the Time-Domain Finite Difference Method (X. Zhang, et al.). Time-Domain Finite Difference Approach to the Calculation of the Frequency-Dependent Characteristics of Microstrip Discontinuities (X. Zhang & K. Mei). Analysis of Microstrip Circuits Using Three-Dimensional Full-Wave Electromagnetic Field Analysis in the Time Domain (T. Shibata, et al.). Characterization of a 90 Microstrip Bend with Arbitrary Miter Via the Time-Domain Finite Difference Method (J. Moore & H. Ling). Application of the Three-Dimensional Finite-Difference Time-Domain Method to the Analysis of Planar Microstrip Circuits (D. Sheen, et al.). Full-Wage Analysis of Coplanar Discontinuities Considering Three-Dimensional Bond Wires (M. Rittweger, et al.). Analysis of Cross-Talk on High-Speed Digital Circuit Using the Finite Difference Time-Domain Method (N. Pothecary & C. Railton). An Efficient Two-Dimensional Graded Mesh Finite-Difference Time-Domain Algorithms for Shielded or Open Waveguide Structures (V. Brankovic, et al.). Steady-State Analysis of Non-Lineaar Forced and Autonomous Microwave Circuits Using the Compression Approach (J. Kunisch & I. Wolff). Computer-Aided Engineering for Microwave and Millimeter-Wave Circuits Using the FD-TD Technique of Field Simulations (T. Shibata & H. Kimura). FDTD Simulation for Microwave Packages and Interconnects (M. Rittweger, et al.).

About the Author :
About the Editors Tatsuo Itoh was the editor-in-chief of IEEE Microwave and Guided Wave Letters from 1991 to 1994. He has held numerous positions including president of IEEE MTT Society in 1990; the chairman of USNC/URSI Commission D from 1988 to 1990; the vice chairman of International Commission D from 1991 to 1993; and the chairman of the same Commission from 1993 to 1996. Dr. Itoh is also a Fellow of the IEEE. Bijan Houshmand joined the Jet Propulsion Laboratory at the California Institute of Technology in 1994. He was a visiting assistant professor at the University of Illinois, Urbana-Champaign, and the University of California, Los Angeles, from 1990 to 1994. Dr. Houshmand is a member of URSI Commission B.


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Product Details
  • ISBN-13: 9780780311091
  • Publisher: I.E.E.E.Press
  • Publisher Imprint: IEEE Publications,U.S.
  • Height: 285 mm
  • Returnable: N
  • Sub Title: Analysis and Design
  • Width: 222 mm
  • ISBN-10: 0780311094
  • Publisher Date: 11 Feb 1998
  • Binding: Hardback
  • Language: English
  • Spine Width: 33 mm
  • Weight: 1566 gr


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