Topics for a Statistical Description of Radar Cross Section
Treats radar cross section (RCS), with special emphasis on statistical aspects and their applications. Focus is on RCS estimation for complex targets, with full discussion of detection theory and comparison of RCS data. Opening chapters provide fundamentals, notation, definitions, and formulas. Middle chapters address scattering and diffraction of electromagnetic waves and practical RCS analyses and applications. Closing chapters discuss the role of constitutive parameters in RCS.
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DEFINITION OF FIELD QUANTITIES AND MAXWELLS
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3-distribution allowable region amplitude angle antenna approximation aspect axis backscattering biaxial bistatic RCS Boeing boundary conditions Chapter coating complex target components computed cone constitutive parameters cos2 creeping wave current sheet curves cylinder defined density diffraction dipole dispersion relation electromagnetic elliptic example exp(-yko Figure frequency geometrical optics Green's function impedance incidence direction incidence plane incident field integral kurtosis layer lobe Lognormal Maffett magnetic field matrix Maxwell's equations measured data medium methods monostatic normal observation obtain permittivity perpendicular physical optics plane wave Poynting vector propagation radar cross section radius ratio Rayleigh RCS distribution RCS Formulas reflected fields reflection and transmission reflection coefficient Reprinted with permission rotation Ryan Firebee scalar scattered field sin2 solution sphere spheroid stationary phase statistics of RCS surface current tangential tangential component tensor theorem theory transformation traveling wave uniaxial vector wave number wavelength