Title :
Dual-Baseline Coherence Tomography
Author :
Cloude, Shane R.
Abstract :
In this letter, we consider a dual-baseline formulation of coherence tomography and show how practical application of the method is limited by numerical stability. To help reduce this, we propose a regularization technique based on a matrix singular value decomposition to stabilize the inversion. We then apply the new dual-baseline algorithm to ground-based radar data from the European Microwave Signature Laboratory. We consider a sample of maize plants and employ dual-baseline interferometric data to reconstruct vertical tomograms through the vegetation as a function of frequency. We use these reconstructions to interpret the primary scattering mechanisms and their polarization dependence
Keywords :
geophysical techniques; radar applications; singular value decomposition; tomography; vegetation; EMSL; European Microwave Signature Laboratory; dual-baseline coherence tomography; maize plants; matrix singular value decomposition; numerical stability; regularization technique; scattering mechanisms; tomograms; vegetation; Coherence; Image reconstruction; Laboratories; Numerical stability; Polarization; Radar cross section; Radar imaging; Radar scattering; Tomography; Vegetation mapping; 3-D imaging of vegetation; Radar interferometry; radar tomography;
Journal_Title :
Geoscience and Remote Sensing Letters, IEEE
DOI :
10.1109/LGRS.2006.885893
