Open AccessBook
Ultrawideband Radar Measurements: Analysis and processing
L. Y. Astanin,A. A. Kostylev +1 more
TLDR
This chapter describes the design principles and mathematical modelling of UWB radar meters, and describes the scattering patterns of Ultrawideband radar target responses.Abstract:
* Chapter 1: Ultrawideband signals: definition, modelling and measurement * Chapter 2: Analytical description of target scattering * Chapter 3: Ultrawideband radar target responses * Chapter 4: Design principles and mathematical modelling of UWB radar meters * Chapter 5: UWB signal processingread more
Citations
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Journal ArticleDOI
Performance of ultra-wideband communications with suboptimal receivers in multipath channels
J.D. Choi,Wayne E. Stark +1 more
TL;DR: The performance of a single-user ultra-wideband communication system employing binary block-coded pulse-position modulation and suboptimal receivers in multipath channels is considered and numerical results for several cases are obtained which illustrate the tradeoff between performance and receiver complexity.
Journal ArticleDOI
Investigation of Time–Frequency Features for GPR Landmine Discrimination
TL;DR: Time-frequency features of an ultrawideband (UWB) target response for the discrimination between buried landmines and other objects are investigated and the obtained results define the best features and conditions when the landmine discrimination is successful.
Journal ArticleDOI
Ultra-wideband continuous-wave random noise arc-SAR
TL;DR: The paper discusses the theory of SAR imaging using random noise signals and presents a detailed description of the radar and experimental imagery obtained using the developed coherent ultra-wideband random noise radar system.
Journal ArticleDOI
ECCM capabilities of an ultrawideband bandlimited random noise imaging radar
TL;DR: Noise waveforms possess better jamming immunity (of the order of 5-10 dB improvement over the linear FM chirp) due to the unique radar correlation processing in the receiver.
Dissertation
Characterization of Ultra Wideband Communication Channels
TL;DR: A new formulation for evaluating the complex dielectric constant of low-loss materials, which involves solving real equations and thus requiring only one-dimensional root searching techniques, was found and indicates the immunity of UWB signals to multipath fading.