Author_Institution :
Orsted.DTU, Tech. Univ. Denmark, Lyngby, Denmark
Abstract :
During the past decade there has been considerable research on ground penetrating radar (GPR) tomography for detecting objects such as pipes, cables, mines and barrels buried under the surface of the Earth. While the earlier researches were all based on the assumption of a homogeneous background for simplicity, the planar air-soil interface has also been taken into account in two recently developed algorithms (see Hansen, T.B. and Meincke Johansen, P., IEEE Trans. Geosci. Remote Sensing, vol.38, no.1, 2000; Meincke, P., IEEE AP-S International Symposium, 2001). We address a general formulation for GPR imaging of buried 3D metallic objects within the physical optics (PO) approximation which also highlights the analytical background behind the success of methods employed by Hansen and Meincke Johansen and Meincke in identifying high contrast scatterers.
Keywords :
buried object detection; electromagnetic wave scattering; inverse problems; physical optics; radar detection; radar imaging; remote sensing by radar; tomography; GPR imaging; GPR tomography; PO approximation; buried metallic objects; ground penetrating radar; high contrast scatterers; inversion algorithm; physical optics approximation; radar imaging; Buried object detection; Cables; Ground penetrating radar; Image analysis; Optical imaging; Optical scattering; Physical optics; Radar detection; Remote sensing; Tomography;
