Description
Advanced Ultrawideband Radar
Signals, Targets, and Applications
Coordinator: Taylor James D.
Language: EnglishSubjects for Advanced Ultrawideband Radar:
Keywords
UWB Radar; UWB Signal; systems; UWB Radar System; impulse; Advanced UWB Radar; ground; HRRP; penetrating; SAR Image; time; Range Profile; frequency; Aspect Angle; analysis; EMD; synthetic; Noise Radar; aperture; PEC Object; system; Impulse Radar; CS; Time Frequency Analysis; PEC Cylinder; Space Time Coding; MFIE; Monostatic RCS; Time Frequency Spectra; Vital Sign Detection; Radon Transform; ICA Component; Boundary IEs; HHT; Im En
Publication date: 12-2019
· 17.8x25.4 cm · Paperback
Publication date: 12-2016
· 17.8x25.4 cm · Hardback
Description
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This book presents the latest theory, developments, and applications related to high resolution materials-penetrating sensor systems. An international team of expert researchers explains the problems and solutions for developing new techniques and applications. Subject areas include ultrawideband (UWB) signals propagation and scattering, materials-penetrating radar techniques for small object detection and imaging, biolocation using holographic techniques, tomography, medical applications, nondestructive testing methods, electronic warfare principles, through-the-wall radar propagation effects, and target identification through measuring the target return signal spectrum changes.
Progress and Future Directions. UWB Signal Waveforms and Target Interactions. Signal Scattering from Targets Smaller than Radar Spatial Resolution. UWB Pulse Scattering of Aerial and Subsurface Resonant Objects. Early and Late Time Response of UWB Signals. Advances in Ultrawideband Radar Detection and Location of Buried Targets. Materials-Penetrating Radar Techniques. Prototype UWB Radar Object Scanner. Bioradiolocation and Monitoring with Holographic Radar. RF Tomography. Future Medical Applications of UWB Radar. Nondestructive Testing using UWB radar sensors. Progress in Noise Radars. Ultrawideband Radar Electronic Warfare Systems. Resonance and Aspect Matched Adaptive UWB Radar Techniques. Modeling of UWB Signals for Biolocation. Through-the-Wall Radar.
James D. Taylor is affiliated with J.D. Taylor Associates