Introduction to Radio EngineeringThe book introduces the basic foundations of high mathematics and vector algebra. Then, it explains the basic aspects of classical electrodynamics and electromagnetism. Based on such knowledge readers investigate various radio propagation problems related to guiding structures connecting electronic devices with antenna terminals placed at the different radar systems. It explains the role of antennas in process of transmission of radio signals between the terminals. Finally, it shows the relation between the main operational charactistics of each kind of radar and the corresponding knowledge obtained from the previous chapters. |
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Table des matières
NTRODUCTION TO CLASSICAL | |
Electromagnetic Waves Propagation in Various | |
Reflection and Refraction of Electromagnetic | |
GUIDING STRUCTURES AND GUIDING | |
Transmission Lines | |
Coaxial Cables | |
Waveguides | |
ANTENA FUNDAMENTALS | |
RADAR FUNDAMENTALS | |
Physical Fundamentals of GroundPenetrating | |
ESPUWB Radar Systems Applications | |
Autres éditions - Tout afficher
Introduction to Radio Engineering Nathan Blaunstein,Christos Christodoulou,Mikhail Sergeev Aucun aperçu disponible - 2016 |
Introduction to Radio Engineering Nathan Blaunstein,Christos G. Christodoulou,Mikhail Sergeev Aucun aperçu disponible - 2020 |
Expressions et termes fréquents
amplitude angle applications attenuation Blaunstein boundary conditions buried object Cartesian coordinate system Chapter clutter coaxial cable coefficient conductivity conductor corresponding cutoff frequency cylindrical coordinate system defined density described detection dielectric differential dipole direction electric and magnetic electric field electromagnetic wave Engineering Electromagnetics equal Example FDTD flux follows from Equation formulas free space function Geometrical presentation ground-penetrating radars guiding structures Handbook IEEE Trans imaging incident inhomogeneous inside integral intrinsic impedance introduced ionosphere isotropic layer leaky coaxial cable magnetic field Maxwell’s equations McGrawHill Microwave MMW radars normalized obtain operator permittivity phase velocity phasor plane wave propagation constant propagation parameter pulse radar systems radiation pattern radio range rectangular waveguide reflection refraction scalar scattered shown in Figure signal spherical coordinate system subsoil medium surface target transmission line transmitted transverse vertical voltage wave propagation waveguide wavelength Wiley York z-axis