H. Chen scite author profile

In this paper we report results of a study aimed at assessing the potential for using X-band polarimetric interferometry for forest height estimation in high latitude boreal and temperate rainforest environments. We first summarize the data sets available from the Tandem-X satellite pair for our two main test sites before deriving a new height estimation algorithm and finally comparing radar derived heights against reference lidar canopy height data for the two scenes.

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Forest Applications

Papathanassiou

Cloude

Pardini

et al. 2021

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The application of polarimetric Synthetic Aperture Radar (SAR) to forest observation for mapping, classification and parameter estimation (especially biomass) has a relatively long history. The radar penetration through forest volume, and hence the multi-layer nature of scattering models, make fully polarimetric data the observation space enabling a robust and full inversion of such models. A critical advance came with the introduction of polarimetric SAR interferometry, where polarimetry provides the parameter diversity, while the interferometric baseline proves a user-defined entropy control as well as spatial separation of scattering components, together with their location in the third dimension (height). Finally, the availability of multiple baselines leads to the full 3-D imaging of forest volumes through TomoSAR, the quality of which is again greatly enhanced by the inclusion of polarimetry. The objective of this Chapter is to review applications of SAR polarimetry, polarimetric interferometry and tomography to forest mapping and classification, height estimation, 3-D structure characterization and biomass estimation. This review includes not only models and algorithms, but it also contains a large number of experimental results in different test sites and forest types, and from airborne and space borne SAR data at different frequencies.

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H. Chen

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Forest Applications

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