Electromagnetic modeling of buried objects
- Massachusetts Inst. of Technology, Lexington, MA (United States). Lincoln Lab.
In this paper, radar cross section (RCS) models of buried dipoles, surface steel pipe, and buried steel pipes are discussed. In all these models, the ground is assumed to be a uniform half space. The calculated results for the buried dipoles and the surface steel pipe compare favorably with those measured in the 1993 Yuma ground penetration radar (GPR) experiment. For the buried dipoles, a first-order RCS model is developed. In this model, a solution for an infinitely long conducting cylinder, together with a mirror image approximation (which accounts for the coupling between the dipole and the ground-air interface) is used to calculate the dipole RCS. This RCS model of the buried dipoles explains the observed loss of dipole RCS. For the surface steel pipe, a geometrical optics model, which includes the multipath interaction, is developed. This model explains the observed multipath gain/loss. For the buried steel pipes, a zero order physical optics model is developed. Also discussed is desert radar clutter statistics as a function of depression angle. Preliminary analysis, based on samples of Yuma desert surface profiles, indicates that simple rough-surface models cannot explain the observed average backscatter from desert clutter.
- OSTI ID:
- 207941
- Report Number(s):
- CONF-940449--; ISBN 0-8194-1521-9
- Country of Publication:
- United States
- Language:
- English
Similar Records
Modeling Buried Object Brightness and Visibility for Ground Penetrating Radar
Change Detection in Constellations of Buried Objects Extracted From Ground-Penetrating Radar Data