Radar principles for the non-specialist
This leading book for basic radar training and self-study distills the complex technology of radar into its fundamentals, tying them to the laws of nature on one end and the most modern and complex systems on the other. It provides a solid understanding of radar fundamentals and applications with far less of the mathematical rigor and technical data presented in engineering books for specialists.
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Elementary Electromagnetics and the Radar Range
Detection and Tracking
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accuracy airborne pulse-doppler aircraft ambiguity amplitude antenna beam antenna gain antenna pattern Arecibo Artech House bandwidth Barton beamwidth calculations cancellation Chapter characteristics clutter complex conical scan corner reflector degrees derived detection dipole discussed dish doppler processing doppler resolution duration electromagnetic electronic element energy error factor far-field FM chirp Fourier transform frequency Hertz illumination function incremental ionosphere Kalman filter L-band lidar measure microwave missile monopulse noise null objects optical output peak phase shifters phased arrays polarization pulse burst pulse-doppler radars radar altimeter radar cross section radar designer radar range equation radar receiver Radar Systems radiating radio range and angle range resolution reradiate resolution cells result satellite sidelobes signal processing signal-to-noise ratio simple pulse single pulse Skolnik space spectrum sphere square steering synthetic aperture radars target techniques threshold crossing tion tracking transmit velocity voltage wave waveform wavelength zero