The Resource Practical applications of asymptotic techniques in electromagnetics, Francisco Saez de Adana ... [et. al.]

Practical applications of asymptotic techniques in electromagnetics, Francisco Saez de Adana ... [et. al.]

Label
Practical applications of asymptotic techniques in electromagnetics
Title
Practical applications of asymptotic techniques in electromagnetics
Statement of responsibility
Francisco Saez de Adana ... [et. al.]
Contributor
Subject
Language
eng
Member of
Cataloging source
YDXCP
Dewey number
537
Illustrations
illustrations
Index
index present
LC call number
QA273.5
LC item number
.P73 2011
Literary form
non fiction
Nature of contents
  • theses
  • bibliography
http://library.link/vocab/relatedWorkOrContributorName
Sáez de Adana, Francisco
Series statement
Artech House electromagnetics series
http://library.link/vocab/subjectName
  • Differential equations
  • Electromagnetic waves
  • Electromagnetic Phenomena
Label
Practical applications of asymptotic techniques in electromagnetics, Francisco Saez de Adana ... [et. al.]
Instantiates
Publication
Accompanying material
1 DVD-ROM (4 3/4 in.)
Bibliography note
Includes bibliographical references and index
Contents
  • ch. 2
  • 4.5.1.
  • Multiple Reflections Between Plane Surfaces
  • 4.5.2.
  • Double Reflection Between a Plane Surface and a Curved Surface
  • 4.5.3.
  • Double Reflection Between Curved Surfaces Using the SPM
  • 4.6.
  • Physical Theory of Diffraction and the Equivalent Current Method
  • 4.7.
  • Introduction of Radar Absorbing Materials (RAM) in the PO Formulation
  • Geometric Description of the Bodies and Computation of Geometric Parameters
  • References
  • ch. 5
  • Acceleration Techniques
  • 5.1.
  • Acceleration Techniques Applied to High-Frequency Problems
  • 5.2.
  • Elimination of Surfaces Using Simple Criteria
  • 5.2.1.
  • Normal Vector Criterion
  • 5.2.2.
  • 2.1.
  • Intersection with the Bounding Box
  • 5.3.
  • Classical Techniqus for the Ray-Tracing Acceleration for the Shadowing Test
  • 5.3.1.
  • Angular Z-Buffer (AZB) Algorithm
  • 5.3.2.
  • Space Volumetric Partitioning (SVP)
  • 5.4.
  • Application of the AZB to Bodies Modeled by Parametric Surfaces
  • 5.4.1.
  • Overview of the Geometric Modeling of Complex Objects
  • Application to the Shadowing of the Direct Ray
  • 5.4.2.
  • Application to the Shadowing of an Intermediate Ray
  • 5.4.3.
  • Application to the Determination of the Reflection Points
  • 5.4.4.
  • Application to Multiple-Order Reflections
  • 5.4.5.
  • Application to the Shawoding of the Diffracted Ray
  • 5.5.
  • 2.2.
  • Combination of AZB-SVP for the Analysis in the Near Zone
  • 5.6.
  • Application of AZB for the Analysis of the RCS
  • 5.6.1.
  • Application to Plane Facets
  • 5.6.2.
  • Application to Curved Surfaces
  • 5.6.3.
  • Application to Double- and Higher- Order Effects Between Plane Facets
  • References
  • Rational Bezier Curves
  • ch. 6
  • Applications
  • 6.1.
  • Overview of Asymptotic Technique Codes
  • 6.2.
  • Results Obtained with FASANT
  • 6.2.1.
  • Radiation Pattern of Antennas On-Board the Jason and Stentor Satellites
  • 6.2.2.
  • Radiation Pattern of Antennas On-Board the International Space Station (ISS)
  • 2.3.
  • 6.2.3.
  • Satellite Indoor Reception in Vienna
  • 6.2.4.
  • Wind Turbines
  • 6.3.
  • Results Obtained with POGCROS and Numerical Evaluation of the PO Integral
  • 6.3.1.
  • RCS of a Scud Missile
  • 6.3.2.
  • Analysis of the Range-Profile Image of the Tabarca Ship
  • Rational B-Spline Curves
  • 6.3.3.
  • Cavity Analysis
  • 6.3.4.
  • Analysis of a Reflector Antenna
  • References
  • 2.4.
  • Rational Bezier Surfaces
  • Machine generated contents note:
  • 2.5.
  • Rational B-Spline Surfaces
  • 2.6.
  • Transformation from NURBS Representation to Bezier Representation
  • 2.7.
  • Computation of Geometric Parameters on Bezier Surfaces
  • 2.7.1.
  • Computation of Unit Normal Vectors
  • 2.7.2.
  • Computation of Principal Curvature Radii and Principal Directions
  • ch. 1
  • References
  • ch. 3
  • Geometrical Optics and Uniform Theory of Diffraction (GO/UTD)
  • 3.1.
  • Historical Overview
  • 3.2.
  • Geometrical Optics Equations
  • 3.2.1.
  • Ray Trajectory
  • 3.2.2.
  • Introduction
  • Polarization
  • 3.2.3.
  • Phase
  • 3.2.4.
  • Amplitude
  • 3.3.
  • Direct Ray
  • 3.3.1.
  • Electromagnetic Field Calculation
  • 3.3.2.
  • 1.1.
  • Determination of the Direct Rays
  • 3.4.
  • Reflected Field
  • 3.4.1.
  • Electromagnetic Field Calculation
  • 3.4.2.
  • Determining Reflected Rays and Computing Reflection Points
  • 3.5.
  • Diffracted Field
  • 3.5.1.
  • Asymptotic Techniques and Real-World Problems
  • Electromagnetic Field Calculation
  • 3.5.2.
  • Determining Diffracted Rays and Computing Diffraction Points
  • 3.6.
  • Double Effects
  • 3.6.1.
  • Electromagnetic Field Calculation
  • 3.6.2.
  • Determining Double Effect Rays
  • 3.7.
  • 1.2.
  • Creeping Waves
  • 3.7.1.
  • Electromagnetic Field Calculation
  • 3.7.2.
  • Determining Creeping Wave Trajectories
  • References
  • ch. 4
  • Physical Optics and Physical Theory of Diffraction (PO/PTD)
  • 4.1.
  • Introduction to Po/PTD
  • Structure of This Book
  • 4.2.
  • Physical Optics Foundations
  • 4.3.
  • Methods to Calculate the PO Integral for Complex Bodies
  • 4.3.1.
  • Numerical Integration
  • 4.3.2.
  • Ludwig Method
  • 4.3.3.
  • Method of Plane Facets
  • References
  • 4.3.4.
  • Method of Numerical Quadrature
  • 4.3.5.
  • Method of the Graphical Processing of the Image
  • 4.3.6.
  • Current Modes
  • 4.4.
  • Stationary Phase Method
  • 4.5.
  • Application of PO to the Computation of Higher-Order Reflections
Dimensions
24 cm. +
Extent
xi, 215 p.
Isbn
9781608070633
Other physical details
ill.
System control number
  • (CaMWU)u2158312-01umb_inst
  • 2291735
  • (Sirsi) i9781608070633
  • (OCoLC)655250530
Label
Practical applications of asymptotic techniques in electromagnetics, Francisco Saez de Adana ... [et. al.]
Publication
Accompanying material
1 DVD-ROM (4 3/4 in.)
Bibliography note
Includes bibliographical references and index
Contents
  • ch. 2
  • 4.5.1.
  • Multiple Reflections Between Plane Surfaces
  • 4.5.2.
  • Double Reflection Between a Plane Surface and a Curved Surface
  • 4.5.3.
  • Double Reflection Between Curved Surfaces Using the SPM
  • 4.6.
  • Physical Theory of Diffraction and the Equivalent Current Method
  • 4.7.
  • Introduction of Radar Absorbing Materials (RAM) in the PO Formulation
  • Geometric Description of the Bodies and Computation of Geometric Parameters
  • References
  • ch. 5
  • Acceleration Techniques
  • 5.1.
  • Acceleration Techniques Applied to High-Frequency Problems
  • 5.2.
  • Elimination of Surfaces Using Simple Criteria
  • 5.2.1.
  • Normal Vector Criterion
  • 5.2.2.
  • 2.1.
  • Intersection with the Bounding Box
  • 5.3.
  • Classical Techniqus for the Ray-Tracing Acceleration for the Shadowing Test
  • 5.3.1.
  • Angular Z-Buffer (AZB) Algorithm
  • 5.3.2.
  • Space Volumetric Partitioning (SVP)
  • 5.4.
  • Application of the AZB to Bodies Modeled by Parametric Surfaces
  • 5.4.1.
  • Overview of the Geometric Modeling of Complex Objects
  • Application to the Shadowing of the Direct Ray
  • 5.4.2.
  • Application to the Shadowing of an Intermediate Ray
  • 5.4.3.
  • Application to the Determination of the Reflection Points
  • 5.4.4.
  • Application to Multiple-Order Reflections
  • 5.4.5.
  • Application to the Shawoding of the Diffracted Ray
  • 5.5.
  • 2.2.
  • Combination of AZB-SVP for the Analysis in the Near Zone
  • 5.6.
  • Application of AZB for the Analysis of the RCS
  • 5.6.1.
  • Application to Plane Facets
  • 5.6.2.
  • Application to Curved Surfaces
  • 5.6.3.
  • Application to Double- and Higher- Order Effects Between Plane Facets
  • References
  • Rational Bezier Curves
  • ch. 6
  • Applications
  • 6.1.
  • Overview of Asymptotic Technique Codes
  • 6.2.
  • Results Obtained with FASANT
  • 6.2.1.
  • Radiation Pattern of Antennas On-Board the Jason and Stentor Satellites
  • 6.2.2.
  • Radiation Pattern of Antennas On-Board the International Space Station (ISS)
  • 2.3.
  • 6.2.3.
  • Satellite Indoor Reception in Vienna
  • 6.2.4.
  • Wind Turbines
  • 6.3.
  • Results Obtained with POGCROS and Numerical Evaluation of the PO Integral
  • 6.3.1.
  • RCS of a Scud Missile
  • 6.3.2.
  • Analysis of the Range-Profile Image of the Tabarca Ship
  • Rational B-Spline Curves
  • 6.3.3.
  • Cavity Analysis
  • 6.3.4.
  • Analysis of a Reflector Antenna
  • References
  • 2.4.
  • Rational Bezier Surfaces
  • Machine generated contents note:
  • 2.5.
  • Rational B-Spline Surfaces
  • 2.6.
  • Transformation from NURBS Representation to Bezier Representation
  • 2.7.
  • Computation of Geometric Parameters on Bezier Surfaces
  • 2.7.1.
  • Computation of Unit Normal Vectors
  • 2.7.2.
  • Computation of Principal Curvature Radii and Principal Directions
  • ch. 1
  • References
  • ch. 3
  • Geometrical Optics and Uniform Theory of Diffraction (GO/UTD)
  • 3.1.
  • Historical Overview
  • 3.2.
  • Geometrical Optics Equations
  • 3.2.1.
  • Ray Trajectory
  • 3.2.2.
  • Introduction
  • Polarization
  • 3.2.3.
  • Phase
  • 3.2.4.
  • Amplitude
  • 3.3.
  • Direct Ray
  • 3.3.1.
  • Electromagnetic Field Calculation
  • 3.3.2.
  • 1.1.
  • Determination of the Direct Rays
  • 3.4.
  • Reflected Field
  • 3.4.1.
  • Electromagnetic Field Calculation
  • 3.4.2.
  • Determining Reflected Rays and Computing Reflection Points
  • 3.5.
  • Diffracted Field
  • 3.5.1.
  • Asymptotic Techniques and Real-World Problems
  • Electromagnetic Field Calculation
  • 3.5.2.
  • Determining Diffracted Rays and Computing Diffraction Points
  • 3.6.
  • Double Effects
  • 3.6.1.
  • Electromagnetic Field Calculation
  • 3.6.2.
  • Determining Double Effect Rays
  • 3.7.
  • 1.2.
  • Creeping Waves
  • 3.7.1.
  • Electromagnetic Field Calculation
  • 3.7.2.
  • Determining Creeping Wave Trajectories
  • References
  • ch. 4
  • Physical Optics and Physical Theory of Diffraction (PO/PTD)
  • 4.1.
  • Introduction to Po/PTD
  • Structure of This Book
  • 4.2.
  • Physical Optics Foundations
  • 4.3.
  • Methods to Calculate the PO Integral for Complex Bodies
  • 4.3.1.
  • Numerical Integration
  • 4.3.2.
  • Ludwig Method
  • 4.3.3.
  • Method of Plane Facets
  • References
  • 4.3.4.
  • Method of Numerical Quadrature
  • 4.3.5.
  • Method of the Graphical Processing of the Image
  • 4.3.6.
  • Current Modes
  • 4.4.
  • Stationary Phase Method
  • 4.5.
  • Application of PO to the Computation of Higher-Order Reflections
Dimensions
24 cm. +
Extent
xi, 215 p.
Isbn
9781608070633
Other physical details
ill.
System control number
  • (CaMWU)u2158312-01umb_inst
  • 2291735
  • (Sirsi) i9781608070633
  • (OCoLC)655250530

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