Evaluation of Digital Elevation Models (DEM) Generated from the InSAR Technique in a Sector of the Central Andes of Chile, Using Sentinel 1 and TerraSar-X Images

Handle

https://riunet.upv.es/handle/10251/236088

Cita bibliográfica

Vidal-Páez, PJ.; Flores, F.; Mena, F.; Perez-Martinez, W.; Oliva Pavón, P. (2025). Evaluation of Digital Elevation Models (DEM) Generated from the InSAR Technique in a Sector of the Central Andes of Chile, Using Sentinel 1 and TerraSar-X Images. Applied Sciences. 16(1):1-19. https://doi.org/10.3390/app16010392

Titulación

Resumen

[EN] The Synthetic Aperture Radar Interferometry (InSAR) technique enables researchers to generate Digital Elevation Models (DEMs) from SAR data, which researchers widely apply in multi-temporal analyses, including ground deformation monitoring, susceptibility mapping, and analysis of spatial changes in erosion basins. In this study, we generated two interferometric DEMs from Sentinel-1 (S1, VV polarization) and TerraSAR-X (TSX, HH polarization, ascending orbit) data, processed in SNAP, over a mountainous sector of the central Andes in Chile. We assessed the accuracy of the DEMs against two reference datasets: the SRTM DEM and a high-resolution LiDAR-derived DEM. We selected 150 randomly distributed points across different slope classes to compute statistical metrics, including RMSE and MedAE. Relative to the LiDAR DEM, both sensors yielded rMSE values of approximately 20 m, increasing to 23¿24 m when compared with the SRTM DEM. The MedAE, a metric less sensitive to outliers, was 3.97 m for S1 and 3.26 m for TSX with respect to LiDAR, and 7.07 m for S1 and 7.49 m for TSX relative to SRTM. We observed a clear positive correlation between elevation error and terrain slope. In areas with slopes greater than 45°, the MedAE exceeded 14 m relative to the LiDAR DEM and reached ~15 m relative to the SRTM for both S1 and TSX.

Fuente

Applied Sciences

Enlaces relacionados

URL