Alaeddin Aydiner scite author profile

The very early time electromagnetic system (VETEM) is an efficient tool for the detection of buried objects in very lossy earth, which allows a deeper penetration depth compared to the ground-penetrating radar. In this paper, the inversion of VETEM data is investigated using three-dimensional (3-D) inverse scattering techniques, where multiple frequencies are applied in the frequency range from 0-5 MHz. For small and moderately sized problems, the Born approximation and/or the Born iterative method have been used with the aid of the singular value decomposition and/or the conjugate gradient method in solving the linearized integral equations. For large-scale problems, a localized 3-D inversion method based on the Born approximation has been proposed for the inversion of VETEM data over a large measurement domain. Ways to process and to calibrate the experimental VETEM data are discussed to capture the real physics of buried objects. Reconstruction examples using synthesized VETEM data and real-world VETEM data are given to test the validity and efficiency of the proposed approach.Index Terms-Buried objects, singular value decomposition (SVD), three-dimensional imaging, three-dimensional inversion, Tikhonov regularization, very lossy earth, very early time electromagnetic (VETEM) data.

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3-D imaging of large scale buried structure by 1-D inversion of very early time electromagnetic (VETEM) data

Aydiner

Chew

Cui

et al. 2001

IEEE Trans. Geosci. Remote Sensing

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Alaeddin Aydiner

An Enhanced Augmented Electric-Field Integral Equation Formulation for Dielectric Objects

An Integral Equation Modeling of Lossy Conductors With the Enhanced Augmented Electric Field Integral Equation

Inverse scattering of two-dimensional dielectric objects buried in a lossy earth using the distorted Born iterative method

Three-dimensional imaging of buried objects in very lossy earth by inversion of VETEM data

3-D imaging of large scale buried structure by 1-D inversion of very early time electromagnetic (VETEM) data

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