Title :
Ultra-wideband, short-pulse ground-penetrating radar: simulation and measurement
Author :
Vitebskiy, Stanislav ; Carin, Lawrence ; Ressler, Marc A. ; Le, Francis H.
Author_Institution :
Dept. of Electr. & Comput. Eng., Duke Univ., Durham, NC, USA
fDate :
5/1/1997 12:00:00 AM
Abstract :
Ultra-wideband (UWB), short-pulse (SP) radar is investigated theoretically and experimentally for the detection and identification of targets buried in and placed atop soil. The calculations are performed using a rigorous, three-dimensional (3D) method of moments algorithm for perfectly conducting bodies of revolution. Particular targets investigated theoretically include anti-personnel mines, anti-tank mines, and a 55-gallon drum, for which the authors model the time-domain scattered fields and the buried-target late-time resonant frequencies. With regard to the latter, the computed resonant frequencies are utilized to assess the feasibility of resonance-based buried-target identification for this class of targets. The measurements are performed using a novel UWB, SP synthetic aperture radar (SAR) implemented on a mobile boom. Experimental and theoretical results are compared
Keywords :
geophysical techniques; method of moments; military systems; radar applications; radar imaging; radar theory; remote sensing by radar; synthetic aperture radar; terrestrial electricity; 55-gallon drum; SAR; anti-personnel mine; anti-tank mine; buried object detection; geoelectric method; geology; geophysical measurement technique; ground penetrating radar; late-time resonant frequencies; military system; mine detector; perfectly conducting bodies of revolution; radar scattering; resonance-based buried-target identification; short-pulse radar; simulation; synthetic aperture radar; target identification; terrestrial electricity; three-dimensional method of moments algorithm; time-domain scattered fields; ultra-wideband radar; Conductors; Ground penetrating radar; Moment methods; Radar detection; Radar theory; Resonant frequency; Soil; Time domain analysis; Ultra wideband radar; Ultra wideband technology;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
