Abstract
Abstract. Digital elevation models are considered the most useful data for dealing with geomorphology. The quality of these models is an important issue for users. This quality concerns position and shape. Vertical accuracy is the most assessed in many studies and shape quality is often neglected. However, both of them have an impact on the quality of the final results for a particular application. For instance, the elevation accuracy is required for orthorectification and the shape quality for geomorphology and hydrology. In this study, we deal with photogrammetric DEMs and show the importance of the quality assessment of both elevation and shape. For this purpose, we produce several SPOT HRV DEMs with the same dataset but with different template size, that is one of the production parameters from optical images. Then, we evaluate both elevation and shape quality. The shape quality is assessed with in situ measurements and analysis of slopes as an elementary shape and stream networks as a complex shape. We use the fractal dimension and sinuosity to evaluate the stream network shape. The results show that the elevation accuracy as well as the slope accuracy are affected by the template size. Indeed, an improvement of 1 m in the elevation accuracy and of 5 degrees in the slope accuracy has been obtained while changing this parameter. The elevation RMSE ranges from 7.6 to 8.6 m, which is smaller than the pixel size (10 m). For slope, the RMSE depends on the sampling distance. With a distance of 10 m, the minimum slope RMSE is 11.4 degrees. The stream networks extracted from these DEMs present a higher fractal dimension than the reference river. Moreover, the fractal dimension of the extracted networks has a negligible change according to the template size. Finally, the sinuosity of the stream networks is slightly affected by the change of the template size.
Highlights
Geomorphometry is “the science of quantitative description and analysis of the geometric-topologic characteristics of the landscape” (Rasemann et al, 2004)
We first present the results of elevation accuracy slope accuracy and the quality of stream network shape
This study aims to assess the position and shape quality of a SPOT HRV DEM
Summary
Geomorphometry is “the science of quantitative description and analysis of the geometric-topologic characteristics of the landscape” (Rasemann et al, 2004). It consists in the study of geomorphic indices as quantitative descriptors of the terrain shapes. This science brings geoscience, mathematics and computer science to model, parameterize and analyse the land surface (Pike et al, 2008). Aspect and curvature are the basic indices extracted from DEMs to describe the terrain morphology. They are used in Digital Terrain Analysis (DTA) for many purposes. In hydrology they are used to extract the stream networks and to study their impact on terrain evolution, such as erosion and deposition (MacMillan and Shary, 2008)
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