Full-Wave Modeling of Near-Field Radar Data for Planar Layered Media Reconstruction

Author

Lambot, Sebastien ; Andre, Frederic

Author_Institution

Earth & Life Inst., Univ. Catholique de Louvain, Louvain-la-Neuve, Belgium

Volume

52

Issue

5

fYear

2014

fDate

May-14

Firstpage

2295

Lastpage

2303

Abstract

A new near-field radar modeling approach for wave propagation in planar layered media is presented. The radar antennas are intrinsically modeled using an equivalent set of infinitesimal electric dipoles and characteristic, frequency-dependent, global reflection, and transmission coefficients. These coefficients determine through a plane wave decomposition wave propagation between the radar reference plane, point sources, and field points. The interactions between the antenna and layered medium are thereby inherently accounted for. The fields are calculated using 3-D Green´s functions. We validated the model using an ultrawideband frequency-domain radar with a transmitting and receiving Vivaldi antenna operating in the range 0.8-4 GHz. The antenna characteristic coefficients are obtained from near- and far-field measurements over a copper plane. The proposed model provides unprecedented accuracy for describing near-field radar measurements collected over a water layer, the frequency-dependent electrical properties of which were described using the Debye model. Layer thicknesses could be retrieved through full-wave inversion. The proposed approach demonstrated great promise for nondestructive testing of planar materials and digital soil mapping using ground-penetrating radar.

Keywords

Green´s function methods; electromagnetic wave reflection; electromagnetic wave transmission; radar antennas; radar receivers; radar transmitters; ultra wideband antennas; ultra wideband radar; 3D Green´s functions; antenna characteristic coefficients; digital soil mapping; field points; frequency 0.8 GHz to 4 GHz; frequency dependent electrical properties; frequency dependent global reflection coefficients; frequency dependent global transmission coefficients; full wave modeling; ground penetrating radar; infinitesimal electric dipoles; near field radar data; near field radar measurements; near field radar modeling approach; planar layered media reconstruction; planar material nondestructive testing; plane wave decomposition; point sources; radar antennas; radar reference plane; receiving Vivaldi antenna; transmitting Vivaldi antenna; ultrawideband frequency-domain radar; water layer; wave propagation; Antenna modeling; Green´s functions; ground-penetrating radar (GPR); near-field; planar layered media;

fLanguage

English

Journal_Title

Geoscience and Remote Sensing, IEEE Transactions on

Publisher

ieee

ISSN

0196-2892

Type

jour

DOI

10.1109/TGRS.2013.2259243

Filename

6520885