Polarimetric Guided Nonlocal Means Covariance Matrix Estimation for Defoliation Mapping

01/24/2020
by   Jørgen A. Agersborg, et al.
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In this study we investigate the potential for using Synthetic Aperture Radar (SAR) data to provide high resolution defoliation and regrowth mapping of trees in the tundra-forest ecotone. Using in situ measurements collected in 2017 we calculated the proportion of both live and defoliated tree crown for 165 10 m × 10 m ground plots along six transects. Quad-polarimetric SAR data from RADARSAT-2 was collected from the same area, and the complex multilook polarimetric covariance matrix was calculated using a novel extension of guided nonlocal means speckle filtering. The nonlocal approach allows us to preserve the high spatial resolution of single-look complex data, which is essential for accurate mapping of the sparsely scattered trees in the study area. Using a standard random forest classification algorithm, our filtering results in a 73.8 % classification accuracy, higher than traditional speckle filtering methods, and on par with the classification accuracy based on optical data.

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