Slope angle and aspect as influencing factors on the accuracy of the SRTM and the ASTER GDEM databases

Publication date: Available online 2 July 2015 Source:Physics and Chemistry of the Earth, Parts A/B/C Author(s): Gergely Szabó , Sudhir Kumar Singh , Szilárd Szabó Presently, the application of digital elevation or surface models have increasing relevance in all areas of scientific research and in practical engineering applications. The ASTER GDEM and SRTM databases are the most widely used digital surface models, due to their free accessibility and global coverage. The SRTM model was produced using a radar-based technique and the ASTER GDEM was developed using optical stereo image-pairs. Therefore, as all models contain errors (i.e. differences stemming from real surface or vertical biases), errors in these models will also differ. Our aim was to examine these vertical biases and to calculate the rate of error variance. A TIN (Triangulated Irregular Network) model was used as a reference surface, derived from the contour lines of a large scale topographic map. Errors were evaluated with statistical and geoinformation techniques. We discovered significant differences between the surfaces. The mean difference between topographic elevations minus the SRTM-V2 is +2.6±4 meters, while the mean difference between topographic elevations minus the SRTM-V3 is +2.7±2.5 meters. With the GDEM, the mean difference was 2.7±9.1 meters. Furthermore, we found that in the case of SRTM, the differences were significant considering the aspects and the steepness of the slopes: southe...
Source: Physics and Chemistry of the Earth, Parts ABC - Category: Science Source Type: research