Broadband bistatic coherent and incoherent detection of buried objects beneath randomly rough surfaces

This paper investigates the application of angular correlation function (ACF) processing for target detection when a metallic object beneath a randomly rough soil surface is sought by ground penetrating radar (GPR). ACF processing is an inherently coherent and multistatic approach. The author compares its results to those from candidate multistatic incoherent processing strategies. In 2D numerical simulations, the author assumes that the antennas are elevated above the soil surface, and that the only significant source of environmental randomness is the soil surface roughness. To expand the basis for the ACF, averaging is performed over both frequency and limited spatial shift. The author takes pains to use realistic GPR problem parameters, together with relevant and varied target geometries. Results are evaluated over an ensemble of geometrical realizations to gain some statistical picture of each method's behavior and performance. Under the parameter limitations applied, combined frequency and spatial averaging are required to produce recognizable ACF behavior. Contrary to expectations, the ACF processing performs best in the vicinity of the "memory line," not when it is avoided.

[1]  Feng,et al.  Correlations and fluctuations of coherent wave transmission through disordered media. , 1988, Physical review letters.

[2]  Leung Tsang,et al.  Studies of the angular correlation function of scattering by random rough surfaces with and without a buried object , 1997, IEEE Trans. Geosci. Remote. Sens..

[3]  K. O'Neill Exploration of innovative radar sensing schemes for subsurface object detection , 1997, IGARSS'97. 1997 IEEE International Geoscience and Remote Sensing Symposium Proceedings. Remote Sensing - A Scientific Vision for Sustainable Development.

[4]  Leung Tsang,et al.  Application of angular correlation function of clutter scattering and correlation imaging in target detection , 1998, IEEE Trans. Geosci. Remote. Sens..

[5]  Leung Tsang,et al.  Angular correlation function and scattering coefficient of electromagnetic waves scattered by a buried object under a two-dimensional rough surface , 1998, IGARSS '98. Sensing and Managing the Environment. 1998 IEEE International Geoscience and Remote Sensing. Symposium Proceedings. (Cat. No.98CH36174).

[6]  Akira Ishimaru,et al.  Angular correlation function based on the second-order Kirchhoff approximation and comparison with experiments , 1996 .

[7]  Leung Tsang,et al.  Detection of a buried object under a single random rough surface with angular correlation function in EM wave scattering , 1996 .

[8]  Akira Ishimaru,et al.  Subsurface detection of a buried object using angular correlation function measurement , 1997 .

[9]  Leung Tsang,et al.  Angular correlation function of wave scattering by a random rough surface and discrete scatterers and its application in the detection of a buried object , 1997 .

[10]  D. Jackson,et al.  The validity of the perturbation approximation for rough surface scattering using a Gaussian roughness spectrum , 1988 .

[11]  K. A. O’Donnell,et al.  Angular correlation functions of amplitudes scattered from a one-dimensional, perfectly conducting rough surface , 1992 .

[12]  Akira Ishimaru,et al.  Analytical, experimental, and numerical studies of angular memory signatures of waves scattered from one-dimensional rough surfaces , 1996, IEEE Trans. Geosci. Remote. Sens..

[13]  Leung Tsang,et al.  THE ANGULAR CORRELATION FUNCTION OF WAVE SCATTERING BY A BURIED OBJECT EMBEDDED IN RANDOM DISCRETE SCATTERERS UNDER A RANDOM ROUGH SURFACE , 1997 .

[14]  Manuel Nieto-Vesperinas,et al.  Intensity angular correlations of light multiply scattered from random rough surfaces , 1993 .

[16]  Akira Ishimaru,et al.  P0LARIMETRIC SCATTERING THEORY FOR HIGH SLOPE ROUGH SURFACES , 1996 .

[17]  Keith D. Paulsen,et al.  Scattering from a metallic object embedded near the randomly rough surface of a lossy dielectric , 1996, IEEE Trans. Geosci. Remote. Sens..