Analysis methods for electromagnetic wave problems, Volume 2
Here are the newest methods for using computers to design linear antennas and microwave printed circuits. Learn how to use supercomputers to apply the FD-TD and the FE methods, and how to develop computation programs. Includes the methods of antenna analysis with integral equation, physical optics approximation, electromagnetic wave scattering due to random surface, eigen function expansion, and rectangular boundary division. Features practice problems and answers, plus examples of actual calculation programs. With 132 diagrams and 1121 equations.
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Finite Difference TimeDomain Method
Antenna Analysis Using Integral Equations
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Analysis Methods for Electromagnetic Wave Problems, Volume 2
No preview available - 1990
analysis method analyzed Antennas Propagation aperture applied approximation arbitrarily shaped boundary conditions boundary element method calculated capacitance characteristics coefficients component computation coordinate corresponding coupling defined denotes derived dielectric diffraction direction discrete domain eigenfunction electric field electromagnetic fields electromagnetic wave Electromagnetic Wave Problems Exercise Problem expansion expressed FD-TD FDTD field equivalence theorem following equation formulation Fourier series frequency Gaussian given Green's function IEEE IEEE Trans IEICE incident integral equation knot Koshiba loop magnetic current magnetic field matrix Maxwell's equations method of moments microstrip microstrip line Microwave Theory Tech numerical obtain perturbation physical optics planar circuit potential function radiation integrals random field random surface RBDM reflector respectively rough surface scalar shadow region shown in Figure solution spline function stochastic strip conductors structure subregions subroutine supercomputers tangential transmission line variables vector processing VKKZ.JY.IX voltage wave field waveguide wire