Publication Date:
1997
abstract:
The authors present a new two-dimensional algorithm for interferometric synthetic aperture radar phase unwrapping based on the finite element method. The proposed technique allows an efficient least-squares solution carried out in the time domain. Weighting functions can be introduced without increasing the computational requirements. The possibility to speed up the computations via a multigrid technique is discussed. A noise-robust extension of the proposed technique is also investigated. The presented experiments on real ERS-I data, as well as on simulated patterns, demonstrate the precision and efficiency of the procedure
Iris type:
01.01 Articolo in rivista
Keywords:
finite element analysis; least squares approximations; radar imaging; radiowave interferometry; synthetic aperture radar; time-domain analysis; IFSAR images; computatio; efficiency; experiments; finite element method; interferometric SAR phase unwrapping; least-squares solution; multigrid technique; noise robust method; phase unwrapping; precision; real ERS-I data; simulated patterns; time domain; two-dimensional algorithm; weighting functions
List of contributors:
Lanari, Riccardo; Fornaro, Gianfranco
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