Title :
Total variation regularized velocity estimation to image subsurface reflectivity
Author :
Xu, Xiaoyin ; Miller, Eric L.
Author_Institution :
Dept. of Electr. & Comput. Eng., Northeastern Univ., Boston, MA, USA
Abstract :
We propose a modified frequency-wavenumber migration method to enhance subsurface imagery obtained by ground penetrating radar (GPR) array to localize buried landmines and other objects. The method aims to minimize the entropy of processed image by introducing different wave propagation velocity for each array element. The different wave propagation velocity is organized to form a velocity vector. On the other hand, by constraining the total variation of the velocity vector, the method satisfies physics requirement that the velocity shall not change abruptly. The optimization scheme is built in the framework of Tikhonov regularization by selecting proper regularization parameter. We use examples obtained from 2-D GPR images. The frequency-wavenumber method and its optimization can be generalized to 3-D in a straight-forward manner.
Keywords :
electromagnetic wave reflection; ground penetrating radar; minimum entropy methods; parameter estimation; radar imaging; 2D GPR images; 3D GPR images; GPR array; Tikhonov regularization; array element; buried landmine detection; buried object detection; entropy minimization; image processing; image subsurface reflectivity; modified frequency-wavenumber migration method; optimization; regularization parameter; subsurface imagery enhancement; total variation regularized velocity estimation; uniform linear array; wave propagation velocity; Buried object detection; Electromagnetic scattering; Entropy; Ground penetrating radar; Landmine detection; Partial differential equations; Reflectivity; Sensor arrays; Soil; Surface waves;
Conference_Titel :
Sensor Array and Multichannel Signal Processing Workshop Proceedings, 2002
Print_ISBN :
0-7803-7551-3
DOI :
10.1109/SAM.2002.1191010
