Title :
A Kirchhoff-Based Shape Reconstruction Algorithm for the Multimonostatic Configuration: The Realistic Case of Buried Pipes
Author :
Soldovieri, Francesco ; Brancaccio, Adriana ; Prisco, Giancarlo ; Leone, Giovanni ; Pierri, Rocco
Author_Institution :
Inst. for Electromagn. Sensing of the Environ., Nat. Res. Council, Naples
Abstract :
A shape reconstruction algorithm is formulated for the multimonostatic configuration and the 2-D geometry. The imaging algorithm is based on the Kirchhoff approximation, works in the frequency domain, and exploits the singular value decomposition tool to achieve a stable solution. The effectiveness of the reconstruction algorithm is shown by processing synthetic data in the time domain generated via a finite-difference time-domain code. A performance analysis of the solution algorithm is addressed with varying host medium and measurement configurations, also by processing synthetic data for a 3-D geometry. Finally, an experimental validation of the technique is performed due to data collected by a time-domain ground-penetrating radar for buried pipe detection and localization.
Keywords :
buried object detection; geophysical techniques; ground penetrating radar; image reconstruction; 2D geometry; 3D geometry; Kirchhoff-based shape reconstruction algorithm; buried pipe detection; buried pipe localization; finite-difference time-domain code; ground-penetrating radar; imaging algorithm; multimonostatic configuration; singular value decomposition; synthetic data processing; Approximation algorithms; Finite difference methods; Frequency domain analysis; Geometry; Kirchhoff´s Law; Performance analysis; Reconstruction algorithms; Shape; Singular value decomposition; Time domain analysis; Ground-Penetrating Radar (GPR); Kirchhoff approximation; inverse problems; microwave tomography;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
DOI :
10.1109/TGRS.2008.921959
