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Quality assessment of SRTM C- and X-band interferometric data: Implications for the retrieval of vegetation canopy height
Authors:Wayne S. Walker  Josef M. Kellndorfer
Affiliation:a The Woods Hole Research Center, 149 Woods Hole Road, Falmouth, MA 02540-1644, USA
b Radiation Laboratory, EECS Department, The University of Michigan, 1301 Beal Ave., Ann Arbor, MI 48109, USA
Abstract:The Shuttle Radar Topography Mission distinguished itself as the first near-global spaceborne mission to demonstrate direct sensitivity to vertical vegetation structure. Whether this sensitivity is viewed as exploitable signal or unwanted bias, a great deal of interest exists in retrieving vegetation canopy height information from the SRTM data. This study presents a comprehensive application-specific assessment of SRTM data quality, focusing on the characterization and mitigation of two primary sources of relative vertical error: uncompensated Shuttle mast motion and random phase noise. The assessment spans four test sites located in the upper Midwestern United States and examines the dependence of data quality on both frequency, i.e., C-band vs. X-band, and the number of acquired datatakes. The results indicate that the quality of SRTM data may be higher than previously thought. Novel mitigation strategies include a knowledge-based approach to sample averaging, which has the potential to reduce phase noise error by 43 to 80%. The strategies presented here are being implemented as part of an ongoing effort to produce regional- to continental-scale estimates of vegetation canopy height within the conterminous U.S.
Keywords:SRTM   NED   InSAR   Vegetation canopy height   Phase noise   Uncompensated mast motion   Error reduction
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