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1.

図書

図書
edited by Christopher T.H. Baker and Chris Phillips
出版情報: Oxford : Clarendon Press , New York : Oxford University Press, 1981  viii, 369 p. ; 25 cm
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2.

図書

図書
by S.G. Mikhlin and K.L. Smolitskiy ; translated by Scripta Technica ; translation editor, Robert E. Kalaba
出版情報: New York : American Elsevier Pub., c1967  xi, 308 p. ; 24 cm
シリーズ名: Modern analytic and computational methods in science and mathematics ; v. 5
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3.

図書

図書
edited by S.M. Rao
出版情報: San Diego ; Tokyo : Academic Press, 1999  xi, 372 p. ; 26 cm
シリーズ名: Academic Press series in engineering
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目次情報: 続きを見る
Preface
Acknowledgments
Contributors
Introduction / Miller1.:
An Initial Exploration of Time Domain Phenomena / 1.1:
The Infinite-Length Wire Antenna / 1.1.1:
The Finite-Length Wire Antenna / 1.1.2:
The Finite-Length Wire Scatterer / 1.1.3:
Late-Time Radiation from an Impulsively Excited Perfect Conductor / 1.1.4:
Some Special Capabilities of Time Domain Models / 1.1.5:
Modeling Chocies in CEM / 1.2:
Why Model in the Time Domain? / 1.2.1:
Evolution of Time Domain Modeling / 1.2.2:
Some General References / 1.2.3:
General Aspects of Time Domain Modeling / 1.3:
Model Development / 1.3.1:
Explicit vs Implicit Solution / 1.3.2:
Excitation Requirements / 1.3.3:
TD Solution / 1.3.4:
Time Domain Integral Equation Modeling / 1.4:
Some Representative TDIEs / 1.4.1:
A Prototype TDIE Model / 1.4.2:
Alternate Forms for a TDIE Solution / 1.4.3:
Excitation of a TDIE Model / 1.4.4:
Physical Implication of a TDIE Explicit Model / 1.4.5:
A Near-Neighbor TD Approximation / 1.4.6:
Time Domain Differential Equation Modeling / 1.5:
Space-Time Sampling of TDDE / 1.5.1:
Some Spatial-Mesh Alternatives / 1.5.2:
Mesh Closure Conditions / 1.5.3:
Handling Small Features in DE Models / 1.5.4:
Obtaining Far Fields from DE Models / 1.5.5:
Variations of TDDE Models / 1.5.6:
Comparison of TDDE and TDIE Models / 1.5.7:
Specific Issues Related to Time Domain Modeling / 1.6:
Increasing the Stability of the Time-Stepping Solution / 1.6.1:
Exploiting EM Singularities / 1.6.2:
Signal Processing as a Part of TD Modeling / 1.6.3:
Total-Field and Scattered-Field Formulations / 1.6.4:
Handling Frequency Dispersion and Loading in TD Models / 1.6.5:
Handling Medium and Component Nonlinearities or Time Variations in TD Models / 1.6.6:
Hybrid TD Models / 1.6.7:
The Concept of Pseudo-Time in Iterative FD Solutions / 1.6.8:
Exploiting Symmetries in TD Modeling / 1.6.9:
Concluding Remarks / 1.7:
Bibliography
Wire Structures: TDIE Solution / Rao ; Sarkar2.:
Basic Analysis / 2.1:
Analysis of a Straight Wire / 2.2:
Method of Moments Solution / 2.2.1:
Conjugate Gradient Method Solution / 2.2.2:
Numerical Example / 2.2.3:
Analysis of an Arbitrary Wire / 2.3:
Moment Method Solution / 2.3.1:
Conjugate Gradient Method / 2.3.2:
Numerical Examples / 2.3.3:
Implicit Solution Scheme / 2.4:
Application to Arbitrary Wire / 2.4.1:
Numerical Implementation / 2.4.2:
Analysis of Multiple Wires and Wire Junctions / 2.4.3:
Infinite Conducting Cylinders: TDIE Solution / Vechinski2.6:
Integral Equation Formulation / 3.1:
Discretization Scheme / 3.2:
TM Incidence: EFIE Formulation / 3.3:
Explicit Solution Procedure / 3.3.1:
Implicit Solution Procedure / 3.3.2:
TE Incidence: EFIE Formulation / 3.3.3:
TE Incidence: HFIE Formulation / 3.4.1:
Finite Conducting Bodies: TDIE Solution / 3.5.1:
Numerical Solution Scheme / 4.1:
Explicit Numerical Method / 4.2.1:
Implicit Numerical Method / 4.2.2:
Efficiency Considerations / 4.2.3:
Far-Scattered Fields / 4.2.4:
Near-Scattered Fields / 4.3.1:
Extrapolation of Time Domain Response / 4.5:
Matrix Pencil Method / 4.5.1:
Total Least Squares Matrix Pencil / 4.5.2:
Dielectric Bodies: TDIE Solution / 4.5.3:
Two-Dimensional Cylinders / 5.1:
Numerical Solution Procedure / 5.2.1:
Three-Dimensional Bodies / 5.2.2:
Finite-Difference Time Domain Method / Umashankar5.3.1:
Introduction to FDTD / 6.1:
Pulse Propagation in a Lossy, Inhomogeneous, Layered Medium / 6.2:
Propagation of Half-Sine Pulse / 6.2.1:
Remote Sensing of Inhomogeneous, Lossy, Layered Media / 6.3:
Profile Inversion Results / 6.3.1:
Key Elements of FDTD Modeling Theory / 6.4:
FDTD Formulation for Two-Dimensional Closed-Region Problems / 6.5:
FDTD Formulation for TM and TE Cases / 6.5.1:
Hollow Rectangular Waveguide / 6.5.2:
Dielectric Slab-Loaded Rectangular Waveguide / 6.5.3:
Shielded Microstrip Lines / 6.5.4:
FDTD Formulation for Two-Dimensional Open-Region Problems / 6.6:
Absorbing Radiation Boundary Condition / 6.6.1:
Second-Order Radiation Boundary Condition / 6.6.2:
Plane Wave Source Condition / 6.7:
Near- to Far-Field Transformation / 6.8:
FDTD Modeling of Curved Surfaces / 6.9:
Perfectly Conducting Object: The TE Case / 6.9.1:
Perfectly Conducting Object: The TM Case / 6.9.2:
Homogeneous Dielectric Object: The TE Case / 6.9.3:
FDTD Formulation for Three-Dimensional Closed-Region Problems / 6.10:
Three-Dimensional Full-Wave Analysis / 6.10.1:
Compact Two-Dimensional FDTD Algorithm / 6.10.2:
Evaluation of Dispersion Characteristics / 6.10.3:
FDTD Formulation for Three-Dimensional Open-Region Problems / 6.11:
Three-Dimensional Plane Wave Source Condition / 6.11.1:
Near- to Far-Field Transformation for the Three-Dimensional Case / 6.12:
RCS of a Flat-Plate Scatterer / 6.12.1:
Computer Resources and Modeling Implications / 6.13:
Transmission Line Modeling Method / Gothard ; German6.14:
The Two-Dimensional TLM / 7.1:
Time Domain Wave Equation / 7.1.1:
Time Domain Transmission Line Equation / 7.1.2:
Equating Maxwell's and the Circuit Equations / 7.1.3:
General Scattering Matrix Theory / 7.1.4:
Applying Scattering Theory to the Free-Space Shunt T-Line / 7.1.5:
Modeling Inhomogeneous Lossy Media / 7.1.6:
Excitation of the TLM Mesh and Metallic Boundaries / 7.1.7:
TLM Mesh Truncation Conditions / 7.1.8:
Discretization of the TLM Spatial Grid / 7.1.9:
TLM Output / 7.1.10:
The Series Node and Duality / 7.1.11:
Outline of the Algorithm for Two-Dimensional TLM Code / 7.1.12:
Three-Dimensional TLM / 7.2:
Special Features in TLM / 7.3:
Frequency-Dependent Material / 7.3.1:
Alternative Meshing Schemes / 7.3.2:
Antenna Array / 7.4:
Electromagnetic Scattering / 7.4.2:
Finite-Element Time Domain Method / Roy ; Salazar-Palma ; Djordjevic7.5:
Incident Field / 8.1:
Transverse Magnetic Case / 8.2:
Formulation / 8.2.1:
Finite-Element Procedure / 8.2.2:
Time-Stepping Procedure / 8.2.3:
Numerical Results / 8.2.4:
Transverse Electric Case / 8.3:
Finite-Volume Time Domain Method / Bonnet ; Ferrieres ; Michielsen ; Klotz ; Roumiguieres8.3.1:
Maxwell's Equations as a Hyperbolic Conservative System / 9.1:
The Conservative Form of Maxwell's Equations / 9.1.1:
Characteristics and Wavefront Propagation / 9.1.2:
An Elementary Form of the Finite-Volume Method / 9.1.3:
Finite-Volume Discretization of Maxwell's Equations / 9.2:
Spatial Discretizations / 9.2.1:
Temporal Discretization / 9.2.2:
Consistency and Stability / 9.2.3:
Hybridization of the FVTD Method with Other Models and Methods / 9.3:
Thin-Wire Models in the FVTD Method / 9.3.1:
Hybridization of the FVTD and the FDTD Methods / 9.3.2:
Another Approach of the Finite-Volume Approach / 9.3.3:
Dielectric Structures / 9.4:
Thin Screens with Finite Conductivity / 9.4.2:
Thin Wires / 9.4.3:
Index / 9.5:
Preface
Acknowledgments
Contributors
4.

図書

図書
by Ravi P. Agarwal, Donal O'Regan and Patricia J.Y. Wong
出版情報: Dordrecht ; Boston, Mass. : Kluwer Academic Publishers, c1999  xi, 416 p. ; 25 cm
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5.

図書

図書
V.K. Dzyadyk
出版情報: Utrecht : VSP, 1995  325 p. ; 25 cm
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