Abstract:
This letter presents a new decomposition approach with independent physical scattering models for odd- and even-bounce mechanisms. The rationale behind the method is to p...Show MoreMetadata
Abstract:
This letter presents a new decomposition approach with independent physical scattering models for odd- and even-bounce mechanisms. The rationale behind the method is to provide orthogonality between the odd- and even-bounce scattering components by removing their correlation from a rank-deficient residue coherency matrix by two successive unitary rotations. The rotated residue coherency matrix is then decomposed into the sum of two rank-1 orthogonal Hermitian positive semi-definite matrices. We show that these two orthogonal matrices consistently depict a single-type scattering phenomenon. Therefore, without branching criteria, one can independently compute the nonnegative odd- and even-bounce scattering powers. We used two full polarimetric SAR data to validate the effectiveness of the proposed method. We first affirm the orthogonality of the proposed scattering models. Then, we perform decomposition to derive the scattering power components and compare them with conventional and state-of-the-art methods. The quantitative analysis supports the merit of the proposed method.
Published in: IEEE Geoscience and Remote Sensing Letters ( Volume: 20)