Title :
Evaluation of an UWB ground-coupled radar in the detection of discontinuities using polarization diversity: FDTD modeling and experiments
Author :
Sagnard, F. ; Tebchrany, E. ; Baltazart, Vincent
Author_Institution :
Dept. MACS, Univ. Paris-Est, Cliamns-sur-Marne, France
Abstract :
An UWB ground-coupled radar has been designed to operate from 460 MHz to beyond 4 GHz and essentially for civil engineering applications. Full-wave modeling using the FDTD approach has allowed to study in details the antenna radiation characteristics in air, in the presence of a soil and as a constituent in a bistatic GPR system. The polarization diversity in the E and H-planes is an important aspect which has been studied in order to further detect the orientation of damages (cracks or delaminations) in civil engineering structures. The analysis of the hyperbola signatures has allowed to evaluate the ability of the radar to detect small canonical buried objects.
Keywords :
antenna radiation patterns; buried object detection; civil engineering; crack detection; delamination; electromagnetic wave polarisation; finite difference time-domain analysis; ground penetrating radar; radar detection; ultra wideband radar; E-plane; FDTD approach; FDTD modeling; H-plane; UWB ground-coupled radar; antenna radiation characteristics; bistatic GPR system; canonical buried object detection; civil engineering application; crack; damage detection; delamination; discontinuity detection; full-wave modeling; hyperbola signature; polarization diversity; soil; Frequency measurement; Ground penetrating radar; Mirrors; Radar antennas; Soil; Time-domain analysis; Dielectric measurements; GPR; Microstrip Antenna; Object detection; Radar polarimetry; Soil; Ultrawideband antennas;
Conference_Titel :
Advanced Ground Penetrating Radar (IWAGPR), 2013 7th International Workshop on
Conference_Location :
Nantes
Print_ISBN :
978-1-4799-0937-7
DOI :
10.1109/IWAGPR.2013.6601534
