Abstract
The Sentinel-1 mission has now reached its maturity, and is acquiring high-quality images with a high revisit time, allowing for effective continuous monitoring of our rapidly changing planet. The purpose of this work is to assess the performance of the different synthetic aperture radar products made available by the European Space Agency through the Sentinels Data Hub against glacier displacement monitoring with offset tracking methodology. In particular, four classes of products have been tested: the medium resolution ground range detected, the high-resolution ground range detected, acquired in both interferometric wide and extra-wide swath, and the single look complex. The first are detected pre-processed images with about 40, 25, and 10-m pixel spacing, respectively. The last category, the most commonly adopted for the application at issue, represents the standard coherent synthetic aperture radar product, delivered in unprocessed focused complex format with pixel spacing ranging from 14 to 20 m in azimuth and from approximately 2 to 6 m in range, depending on the acquisition area and mode. Tests have been performed on data acquired over four glaciers, i.e., the Petermann Glacier, the Nioghalvfjerdsfjorden, the Jackobshavn Isbræ and the Thwaites Glacier. They revealed that the displacements estimated using interferometric wide swath single look complex and high-resolution ground range detected products are fully comparable, even at computational level. As a result, considering the differences in memory consumption and pre-processing requirements presented by these two kinds of product, detected formats should be preferred for facing the application.
Highlights
Under the aegis of the Copernicus Programme, the Sentinel-1 (S1) mission of the European Space Agency (ESA) has been providing high quality synthetic aperture radar (SAR) images since 2014
Those concerning EW GRDH images are omitted for brevity but will be discussed afterwards together with aggregated data for all of the performed experiments
Data reported in the table represent the annual root mean square error (RMSE) of the estimated velocities against reference data calculated as described in Equation (2) using the annual average of the estimated and reference flow speeds
Summary
Under the aegis of the Copernicus Programme, the Sentinel-1 (S1) mission of the European Space Agency (ESA) has been providing high quality synthetic aperture radar (SAR) images since 2014. The S1 mission acquires data in different modes resulting in products at different spatial resolutions. The most commonly used are the interferometric wide (IW) swath and the interferometric extra-wide (EW) swath, in which data are acquired in swaths using the Terrain Observation with Progressive Scanning SAR (TOPSAR) imaging technique [2]. Raw products are processed and uploaded on the Sentinels Data Hub (SDH) in two different formats: the single look complex (SLC) data format, and the ground range detected (GRD) data format [3]. SLC images represent the standard SAR product [4]. The pixel spacing is approximately 14 × 2 m in azimuth/slant range directions. In the latter, it is approximately 6 × 20 m
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