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020 _a9780470409732
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020 _z9780470401286
_qprint
020 _z047040972X
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020 _z0470409738
_qelectronic
024 7 _a10.1002/9780470409732
_2doi
035 _a(CaBNVSL)mat05361020
035 _a(IDAMS)0b0000648117882c
040 _aCaBNVSL
_beng
_erda
_cCaBNVSL
_dCaBNVSL
050 4 _aTK7871.6
_b.J56 2009eb
082 0 4 _a621.382/4
_222
100 1 _aJin, Jian-Ming,
_d1962-
245 1 0 _aFinite element analysis of antennas and arrays /
_cJian-Ming Jin, Douglas J. Riley.
264 1 _aHoboken, New Jersey :
_bJohn Wiley & Sons,
_cc2009.
264 2 _a[Piscataqay, New Jersey] :
_bIEEE Xplore,
_c[2009]
300 _a1 PDF (xiii, 435 pages, [16] pages of plates) :
_billustrations (some col.).
336 _atext
_2rdacontent
337 _aelectronic
_2isbdmedia
338 _aonline resource
_2rdacarrier
504 _aIncludes bibliographical references and index.
505 0 _aPreface -- Acknowledgments -- Chapter 1: Introduction -- 1.1 Numerical Simulation of Antennas -- 1.2 Finite Element Analysis vs. Other Numerical Methods -- 1.3 Frequency- vs. Time-Domain Simulations -- 1.4 Brief Review of Past Work -- 1.5 Overview of This Book -- References -- Chapter 2: Finite Element Formulation -- 2.1 Finite Element Formulation in the Frequency Domain -- 2.2 Finite Element Formulation in the Time Domain -- 2.3 Modeling of Complex Materials -- 2.3.1 Modeling of Electrically and Magnetically Lossy Materials -- 2.3.2 Modeling of Electrically Dispersive Materials -- 2.3.3 Modeling of Magnetically Dispersive Materials -- 2.3.4 Modeling of Doubly Dispersive Lossy Materials -- 2.4 Solution of the Finite Element Equations -- 2.5 Higher-Order and Curvilinear Finite Elements -- 2.6 Summary -- References -- Chapter 3: Finite Element Mesh Truncation -- 3.1 Absorbing Boundary Conditions -- 3.1.1 First-Order Absorbing Boundary Condition -- 3.1.2 Second-Order Absorbing Boundary Condition -- 3.2 Perfectly Matched Layers -- 3.2.1 PML in Terms of Stretched Coordinates -- 3.2.2 PML as an Anisotropic Material Absorber -- 3.2.3 PML for Truncating Computational Domain -- 3.2.4 Finite Element Implementation of PML -- 3.2.5 ABC-Backed, Complementary, CFS, and Second-Order PMLs -- 3.3 Boundary Integral Equations -- 3.3.1 Frequency-Domain Formulations -- 3.3.2 Time-Domain Formulations -- 3.3.3 Treatment of Infinite Ground Plane -- 3.4 Summary -- References -- Chapter 4: Hybrid FETD-FDTD Technique -- 4.1 The FDTD Method -- 4.2 PML Implementation in FDTD -- 4.2.1 FDTD Stretched-Coordinate PML -- 4.2.2 FDTD Anisotropic PML -- 4.3 Near-to-Far-Field Transformation in FDTD -- 4.4 Alternative FETD Formulation -- 4.5 Equivalence between FETD and FDTD -- 4.6 Stable FETD-FDTD Interface -- 4.6.1 Initial Approaches -- 4.6.2 Stable Formulation -- 4.7 Building Hybrid Meshes -- 4.8 Wave-Equation Stablization -- 4.9 Validation Examples -- 4.10 Summary -- References -- Chapter 5: Antenna Source Modeling and Parameter Calculation.
505 8 _a5.1 Antenna Feed Modeling -- 5.1.1 Current Probe -- 5.1.2 Voltage Gap Generator -- 5.1.3 Waveguide Feed Model -- 5.2 Plane-Wave Excitation -- 5.2.1 Total-Field Formulation -- 5.2.2 Scattered-Field Formulation -- 5.2.3 Total- and Scattered-Field Decomposition Approach -- 5.3 Far-Field Pattern Computation -- 5.4 Near-Field Visualization -- 5.5 Summary -- References -- Chapter 6: Modeling of Complex Structures -- 6.1 Thin Material Layers and Sheets -- 6.1.1 Impedance Boundary Conditions -- 6.1.2 Shell Element Formulation -- 6.2 Thin Wires and Slots -- 6.2.1 Thin Wires -- 6.2.2 Thin Slots -- 6.3 Lumped Circuit Elements -- 6.3.1 Coupled First-Order Equations -- 6.3.2 Wave Equation -- 6.3.3 Example -- 6.4 Distributed Feed Network -- 6.5 System-Level Coupling Example -- 6.5.1 Internal Dispersive Material Calibration -- 6.5.2 External Illumination and Aperture Coupling -- 6.6 Summary -- References -- Chapter 7: Antenna Simulation Examples -- 7.1 Narrowband Antennas -- 7.1.1 Coaxial-fed Monopole Antenna -- 7.1.2 Monopole Antennas on a Plate -- 7.1.3 Patch Antennas on a Plate -- 7.1.4 Conformal Patch Antenna Array -- 7.2 Broadband Antennas -- 7.2.1 Ridged Horn Antenna -- 7.2.2 Sinuous Antenna -- 7.2.3 Logarithmic Spiral Antenna -- 7.2.4 Inverted Conical Spiral Antenna -- 7.2.5 Antipodal Vivaldi Antenna -- 7.2.6 Vlasov Antenna -- 7.3 Antenna RCS Simulations -- 7.3.1 Microstrip Patch Antenna -- 7.3.2 Standard Gain Horn Antenna -- 7.4 Summary -- References -- Chapter 8: Axisymmetric Antenna Modeling -- 8.1 Method of Analysis -- 8.1.1 Finite Element Formulation -- 8.1.2 Mesh Truncation Using Perfectly Matched Layers -- 8.1.3 Mesh Truncation Using Boundary Integral Equations -- 8.2 Application Examples -- 8.2.1 Luneburg Lens -- 8.2.2 Corrugated Horn -- 8.2.3 Current Loop Inside a Radome -- 8.3 Summary -- References -- Chapter 9: Infinite Phased Array Modeling -- 9.1 Frequency-Domain Modeling -- 9.1.1 Periodic Boundary Conditions -- 9.1.2 Mesh Truncation Techniques -- 9.1.3 Extension to Skew Arrays.
505 8 _a9.1.4 Extension to Scattering Analysis -- 9.1.5 Application Examples -- 9.2 Time-Domain Modeling -- 9.2.1 Transformed Field Variable -- 9.2.2 Mesh Truncation Techniques -- 9.2.3 General Material Modeling -- 9.2.4 Application Examples -- 9.3 Approximation to Finite Arrays -- 9.4 Summary -- References -- Chapter 10: Finite Phased Array Modeling -- 10.1 Frequency-Domain Modeling -- 10.1.1 The FETI-DPEM1 Formulation -- 10.1.2 The FETI-DPEM2 Formulation -- 10.1.3 Nonconforming Domain Decomposition -- 10.1.4 Application Examples -- 10.2 Time-Domain Modeling -- 10.2.1 The Dual-Field Domain Decomposition Method -- 10.2.2 Domain Decomposition for Iterative Solutions -- 10.2.3 Application Examples -- 10.3 Summary -- References -- Chapter 11: Antenna-Platform Interaction Modeling -- 11.1 Coupled Analysis -- 11.1.1 FETI-DPEM with Domain Decomposition -- 11.1.2 Hybrid FETD-FDTD with Domain Decomposition -- 11.1.3 Hybrid FE-BI Method with FMM Acceleration -- 11.2 Decoupled Analysis -- 11.2.1 Near-Field Calculation -- 11.2.2 Far-Field Evaluation by Numerical Methods -- 11.2.3 Far-Field Evaluation by Asymptotic Techniques -- 11.2.4 Direct and Iterative Improvements -- 11.3 Summary -- References -- Chapter 12: Numerical and Practical Considerations -- 12.1 Choice of Simulation Technologies -- 12.2 Frequency- vs. Time-Domain Simulation Tools -- 12.3 Fast Frequency Sweep -- 12.4 Numerical Convergence -- 12.5 Domain Decomposition and Parallel Computing -- 12.6 Verification and Validation of Predictions -- 12.7 Summary -- References -- Index.
506 1 _aRestricted to subscribers or individual electronic text purchasers.
520 _aThe Most Complete, Up-to-Date Coverage of the Finite Element Analysis and Modeling of Antennas and Arrays Aimed at researchers as well as practical engineers-and packed with over 200 illustrations including twenty-two color plates-Finite Element Analysis of Antennas and Arrays presents: . Time- and frequency-domain formulations and mesh truncation techniques. Antenna source modeling and parameter calculation. Modeling of complex materials and fine geometrical details. Analysis and modeling of narrowband and broadband antennas. Analysis and modeling of infinite and finite phased-array antennas. Analysis and modeling of antenna and platform interactions Recognizing the strengths of other numerical methods, this book goes beyond the finite element method and covers hybrid techniques that combine the finite element method with the finite difference time-domain method, the method of moments, and the high-frequency asymptotic methods to efficiently deal with a variety of complex antenna problems. Complemented with numerous examples, this cutting-edge resource fully demonstrates the power and capabilities of the finite element analysis and its many practical applications.
530 _aAlso available in print.
538 _aMode of access: World Wide Web
588 _aTitle from title screen (viewed Aug. 20, 2009).
588 _aDescription based on PDF viewed 12/21/2015.
650 0 _aFinite element method.
655 0 _aElectronic books.
695 _aAnalytical models
695 _aAntenna arrays
695 _aAntenna feeds
695 _aAntenna measurements
695 _aAntenna radiation patterns
695 _aAntennas
695 _aArrays
695 _aBoundary conditions
695 _aCoatings
695 _aComputational modeling
695 _aDielectric losses
695 _aEquations
695 _aFeeds
695 _aFinite difference methods
695 _aFinite element methods
695 _aFrequency domain analysis
695 _aImpedance
695 _aIndexes
695 _aIntegral equations
695 _aMagnetic domains
695 _aMathematical model
695 _aMaxwell equations
695 _aMoment methods
695 _aNarrowband
695 _aNickel
695 _aNumerical models
695 _aNumerical simulation
695 _aPerfectly matched layers
695 _aPerpendicular magnetic anisotropy
695 _aPrinters
695 _aProbes
695 _aResonant frequency
695 _aSurface impedance
695 _aSurface treatment
695 _aSurface waves
695 _aTime domain analysis
695 _aTime frequency analysis
700 1 _aRiley, Douglas J.,
_d1962-
710 2 _aIEEE Xplore (Online Service),
_edistributor.
710 2 _aJohn Wiley & Sons,
_epublisher.
776 0 8 _iPrint version:
_z9780470401286
856 4 2 _3Abstract with links to resource
_uhttp://ieeexplore.ieee.org/xpl/bkabstractplus.jsp?bkn=5361020
942 _cEBK
999 _c59595
_d59595