Title :
Underground target probing using FDTD
Author :
Luneau, P. ; Delisle, G.Y.
Author_Institution :
INRS Telecommun., Ile des Soeurs, Que., Canada
Abstract :
Great interest has been paid to the detection and characterization of subsurface radar targets. Most results were obtained using quasi-ideal conditions due to the complexity of the problem. If the medium in which the target is embedded is inhomogeneous or contains other scatterers, analytical methods fail to predict the scattered field. Furthermore, the most interesting quantity that can be measured is the near field since the detector must be placed as close as possible to the air-ground interface. Another problem is the fact that the electrical size of the targets is usually equal to or smaller than the wavelength inside the medium. The finite-difference time-domain method is very well suited to this particular application because complex geometries may be treated without increasing the computational burden. This paper shows how the FDTD method can be used to model the field scattered by canonical subsurface targets. A UHF dipole detector is also included in the model.
Keywords :
dipole antennas; electromagnetic fields; finite difference time-domain analysis; radar antennas; radar applications; radar cross-sections; radar detection; FDTD method; UHF dipole detector; air-ground interface; canonical subsurface targets; electrical size; finite difference time domain method; inhomogeneous medium; near field; radar scatterers; scattered field; subsurface radar target detection; underground target probing; wavelength; Computational geometry; Detectors; Failure analysis; Finite difference methods; Ground penetrating radar; Nonuniform electric fields; Radar detection; Radar scattering; Time domain analysis; Wavelength measurement;
Conference_Titel :
Antennas and Propagation Society International Symposium, 1996. AP-S. Digest
Conference_Location :
Baltimore, MD, USA
Print_ISBN :
0-7803-3216-4
DOI :
10.1109/APS.1996.549921
