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Comparison of different DEMs for hydrological studies in the mountainous areas

Akylbek Chymyrov

2021The Egyptian Journal of Remote Sensing and Space Science26 citationsDOIOpen Access PDF

Abstract

The optical and radar satellite data based Global Digital Elevation Models (DEMs) serve as a main data source in hydrological studies today. Open access Remote Sensing (RS) products have increasing accuracy and improved spatial resolution. The main research purposes are to study the use of AW3D30, ASTER GDEM V003 and SRTMGL1 DEMs in modeling mountainous lake basin and comparative analysis of their spatial accuracy. Topographic maps and very high resolution satellite imagery of the study area have been applied for the spatial accuracy verification and surface referencing. The relative accuracies of three different DEMs were analyzed using 1284 elevation points on the terrain surfaces. Comparison of these DEMs with 30 m spatial resolution confirms that an AW3D30 DEM has a higher vertical accuracy compared to other models and can be used for modeling river and lake basins over high mountainous terrain. The detected unreliable sections of the modeled lake basin boundary were analyzed and corrected based on the basin delineation by different DEMs. Analysis of spatial accuracy of the delineated Issyk-Kul Lake basin provide further incentive for DEM modification based on higher resolution remote sensing data, considering the applied geoid height differences as well by using satellite positioning data.

Topics & Concepts

Digital elevation modelRemote sensingAdvanced Spaceborne Thermal Emission and Reflection RadiometerTerrainElevation (ballistics)GeologySatelliteStructural basinShuttle Radar Topography MissionSatellite imageryImage resolutionCartographyGeographyGeomorphologyComputer scienceGeometryArtificial intelligenceAerospace engineeringEngineeringMathematicsFlood Risk Assessment and ManagementRemote Sensing and LiDAR ApplicationsHydrology and Watershed Management Studies
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