A Treatise on InSAR Geometry and 3-D Displacement Estimation

Brouwer, Wietske S.; Hanssen, Ramon F.

doi:10.1109/tgrs.2023.3322595

IEEE Trans. Geosci. Remote Sensing

2023

DOI: 10.1109/tgrs.2023.3322595

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A Treatise on InSAR Geometry and 3-D Displacement Estimation

Wietske S. Brouwer,

Ramon F. Hanssen

Abstract: The estimation of displacement vectors for (objects on) the Earth's surface using satellite InSAR requires geometric transformations of the observables based on orbital viewing geometries. Usually, there are insufficient viewing geometries available for full 3D reconstruction, leading to non-unique solutions. Currently, there is no standardized approach to deal with this problem, resulting in products that are based on haphazard and/or oversimplified assumptions with biased estimates and reduced interpretabili… Show more

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2024

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Cited by 2 publications

References 51 publications

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Estimating three-dimensional displacements with InSAR: the strapdown approach

Brouwer,

Hanssen

2024

J Geod

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Deformation phenomena on Earth are inherently three dimensional. With SAR interferometry (InSAR), in many practical situations the maximum number of observations is two (ascending and descending), resulting in an infinite number of possible displacement estimates. Here we propose a practical solution to this underdeterminancy problem in the form of the strapdown approach. With the strapdown approach, it is possible to obtain “3D-global/2D-local” solutions, by using minimal and largely undisputed contextual information, on the expected driving mechanisms and/or spatial geometry. It is a generic method that defines a local reference system with transversal, longitudinal, and normal (TLN) axes, with displacement occurring in the transversal-normal plane only. Since the orientation of the local frame is based on the physics of the problem at hand, the strapdown approach gives physically more relevant estimates compared to conventional approaches. Moreover, using an a-priori uncertainty approximation on the orientation of the local frame it is possible to assess the precision of the final estimates. As a result, appropriate cartographic visualization using a vector map with confidence ellipses enables an improved interpretation of the results.

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Estimating three-dimensional displacements with InSAR: the strapdown approach

Brouwer,

Hanssen

2024

J Geod

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Active deformation in the central section of the East African Rift from tectonic, volcanic, and hydrologic processes: Observations from satellite geodesy

Murray,

Ebinger

2024

Journal of African Earth Sciences

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A Treatise on InSAR Geometry and 3-D Displacement Estimation

Cited by 2 publications

References 51 publications

Estimating three-dimensional displacements with InSAR: the strapdown approach

Estimating three-dimensional displacements with InSAR: the strapdown approach

Active deformation in the central section of the East African Rift from tectonic, volcanic, and hydrologic processes: Observations from satellite geodesy

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