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oapen-20.500.12657-416952020-09-22T00:50:14Z Electromagnetic Wave Scattering by Aerial and Ground Radar Objects Sukharevsky, Oleg I. Electromagnetics and Microwaves Communications System Design Aerospace Engineering ENG ElectricalEngineering MechanicalEngineering SCI-TECH STM Computational Electrodynamics Electromagnetic Scattering Theory Electromagnetic Wave Scattering Physical Optics Approximation Radar Cross-Section Prediction Radar Detection Algorithms Radar Microwaves Radar Recognition Algorithms Radar Scattering Computation Radar Scattering Software RCS Prediction Reduction of Radar Observability Sergey V. Nechitaylo Stealth Technology Valery M. Orlenko Vitaly A. Vasilets bic Book Industry Communication::T Technology, engineering, agriculture::TJ Electronics & communications engineering::TJF Electronics engineering::TJFN Microwave technology bic Book Industry Communication::T Technology, engineering, agriculture::TJ Electronics & communications engineering::TJK Communications engineering / telecommunications::TJKT Telephone technology::TJKT1 Mobile phone technology bic Book Industry Communication::T Technology, engineering, agriculture::TG Mechanical engineering & materials::TGB Mechanical engineering Electromagnetic Wave Scattering by Aerial and Ground Radar Objects presents the theory, original calculation methods, and computational results of the scattering characteristics of different aerial and ground radar objects. This must-have book provides essential background for computing electromagnetic wave scattering in the presence of different kinds of irregularities, as well as Summarizes fundamental electromagnetic statements such as the Lorentz reciprocity theorem and the image principle Contains integral field representations enabling the study of scattering from various layered structures Describes scattering computation techniques for objects with surface fractures and radar-absorbent coatings Covers elimination of "terminator discontinuities" appearing in the method of physical optics in general bistatic cases Includes radar cross-section (RCS) statistics and high-range resolution profiles of assorted aircrafts, cruise missiles, and tanks Complete with radar backscattering diagrams, echo signal amplitude probability distributions, and other valuable reference material, Electromagnetic Wave Scattering by Aerial and Ground Radar Objects is ideal for scientists, engineers, and researchers of electromagnetic wave scattering, computational electrodynamics, and radar detection and recognition algorithms. 2020-09-21T13:38:55Z 2020-09-21T13:38:55Z 2015 book ONIX_20200921_9781482282610_53 https://library.oapen.org/handle/20.500.12657/41695 eng application/pdf n/a 9781482282610.pdf https://www.taylorfrancis.com/books/9781315214511 Taylor & Francis CRC Press 10.1201/9781315214511 10.1201/9781315214511 7b3c7b10-5b1e-40b3-860e-c6dd5197f0bb CRC Press 334 open access
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Electromagnetic Wave Scattering by Aerial and Ground Radar Objects presents the theory, original calculation methods, and computational results of the scattering characteristics of different aerial and ground radar objects. This must-have book provides essential background for computing electromagnetic wave scattering in the presence of different kinds of irregularities, as well as Summarizes fundamental electromagnetic statements such as the Lorentz reciprocity theorem and the image principle Contains integral field representations enabling the study of scattering from various layered structures Describes scattering computation techniques for objects with surface fractures and radar-absorbent coatings Covers elimination of "terminator discontinuities" appearing in the method of physical optics in general bistatic cases Includes radar cross-section (RCS) statistics and high-range resolution profiles of assorted aircrafts, cruise missiles, and tanks Complete with radar backscattering diagrams, echo signal amplitude probability distributions, and other valuable reference material, Electromagnetic Wave Scattering by Aerial and Ground Radar Objects is ideal for scientists, engineers, and researchers of electromagnetic wave scattering, computational electrodynamics, and radar detection and recognition algorithms.
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