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A Mobile Passive Radar System

EUR 52,20

EUR 37,08

A Mobile Passive Radar System

Markus Krückemeier (Autor)


Leseprobe, PDF (350 KB)
Inhaltsverzeichnis, PDF (34 KB)

ISBN-13 (Printausgabe) 9783736976740
ISBN-13 (E-Book) 9783736966741
Sprache Englisch
Seitenanzahl 156
Umschlagkaschierung glänzend
Auflage 1.
Erscheinungsort Göttingen
Promotionsort Braunschweig
Erscheinungsdatum 28.09.2022
Allgemeine Einordnung Dissertation
Fachbereiche Elektrotechnik
Allgemeine Elektrotechnik
Schlagwörter Synchronization, Receivers, Phase locked loops, Clocks, Phase measurement, Field programmable gate arrays, antenna weights, antenna pattern, passive radar transmitter localization, planar approximation, passive radar systems, numerical simulations, real-world radar measurements, real-world conditions, correct association, robust association, bistatic radar target observations, ground truth information, illuminator localization, cooperative target, Antenna arrays, Radio frequency, Passive radar, Array signal processing, Frequency modulation, autonomous aerial vehicles, electromagnetic wave reflection, Synchronisation, Empfänger, Phasenregelschleifen, Uhren, Phasenmessung, Antennengewichte, Antennendiagramm, passive Radarsenderlokalisierung, planare Approximation, passive Radarsysteme, numerische Simulationen, reale Radarmessungen, reale Bedingungen, korrekte Assoziation, robuste Assoziation, bistatische Radarzielbeobachtungen, Bodenwahrheitsinformationen, Beleuchterlokalisierung, kooperatives Ziel, Antennenarrays, Hochfrequenz, passives Radar, Array-Signalverarbeitung, Frequenzmodulation, autonome Luftfahrzeuge, elektromagnetische Wellenreflexion

Airspace surveillance is one of the classic applications of radar technology. Existing systems are focused on large-scale surveillance of commercial airspace. This research presents a prototype of a small, mobile, passive radar system that for example can be used to monitor aircraft and UAVs in the airspace over maritime borders. The system is based on a coherent, software defined receiving system for data acquisition. The signal processing is subsequently performed in the digital domain. The paper gives an introduction to all the required fundamentals and all the relevant steps of signal processing are shown, starting from digital beamforming, through the generation of the range Doppler matrices, all the way to the tracking of targets using Kalman filters. Furthermore, a novel system for the detection of transmitter locations is presented, which allows the use of such a system in previously unknown scenarios. Finally, measurements are presented to show what such a system can achieve under real world conditions.