Title :
An imaging algorithm of objects embedded in a lossy-dispersive medium for subsurface radar-data processing
Author :
Sato, Toru ; Wakayama, Toshio ; Takemura, Kazuhisa
Author_Institution :
Dept. of Commun. & Comput. Eng., Kyoto Univ., Japan
fDate :
1/1/2000 12:00:00 AM
Abstract :
A robust and high-resolution two-dimensional (2D) imaging algorithm is proposed for retrieving the shape of conductive objects embedded in a uniform lossy and dispersive medium. The target is modeled in terms of the location of points that represents the enter contour of the object, together with the parameters of the medium. A nonlinear least-squares fitting is applied to the estimated scattered waveform to adjust the model parameters. The estimated waveform is computed using the extended ray-tracing method, which incorporates the edge-diffraction waves. The performance of the algorithm is examined with numerical simulations and test-site experiments. The simulation with clutters also revealed the robustness of the algorithm even under fairly strong clutter environments
Keywords :
buried object detection; geophysical techniques; radar imaging; radar theory; remote sensing by radar; terrain mapping; terrestrial electricity; buried object detection; conductive object; edge-diffraction wave; embedded object; geoelectric method; geophysical measurement technique; high-resolution; land surface; lossy-dispersive medium; model; morphology; nonlinear least-squares fitting; radar imaging algorithm; radar remote sensing; ray-tracing; shape; subsurface radar-data processing; terrain mapping; terrestrial electricity; two-dimensional imaging; Dispersion; High-resolution imaging; Image retrieval; Numerical simulation; Parameter estimation; Ray tracing; Robustness; Scattering parameters; Shape; Testing;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
