Holographic radar of RASCAN type provides an output signal that is amplitude-modulated by the phase variation between transmitted and received signals. In this work RASCAN radar response is compared with a model by several experiments performed in air with a 4GHz probe scanning a planar metallic reflector inclined at different angles. The radar response shows a series of dark and light stripes with spacing dependent on signal frequency and velocity, and reflector inclination angle. The model is used to interpret the amplitude variations as a function of probe position.

Quantitative interpretation of RASCAN holographic radar response from inclined plane reflectors by a theoretical model / L. Capineri; P. Falorni ; M. Inagaki ; V. Razevig ; T. Bechtel ; C. Windsor. - ELETTRONICO. - (2010), pp. 1-4. (Intervento presentato al convegno GPR 2010 tenutosi a Lecce, Italy nel 21-25 June 2010) [10.1109/ICGPR.2010.5550129].

Quantitative interpretation of RASCAN holographic radar response from inclined plane reflectors by a theoretical model

CAPINERI, LORENZO;FALORNI, PIERLUIGI;
2010

Abstract

Holographic radar of RASCAN type provides an output signal that is amplitude-modulated by the phase variation between transmitted and received signals. In this work RASCAN radar response is compared with a model by several experiments performed in air with a 4GHz probe scanning a planar metallic reflector inclined at different angles. The radar response shows a series of dark and light stripes with spacing dependent on signal frequency and velocity, and reflector inclination angle. The model is used to interpret the amplitude variations as a function of probe position.
2010
Proceeding of Ground Penetrating Radar (GPR), 2010 13th International Conference on
GPR 2010
Lecce, Italy
21-25 June 2010
L. Capineri; P. Falorni ; M. Inagaki ; V. Razevig ; T. Bechtel ; C. Windsor
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/652131
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