Filtering of ASTER digital elevation models using mathematical morphology

Danneels, Gaëlle; Havenith, Hans-Balder; Cáceres, Fernando Collar de; Outal, Souhaïl; Pirard, Eric

doi:10.1144/sp345.5

Cited by 2 publications

(2 citation statements)

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“…In a morphological operation, the value of each pixel in the output image is based on a comparison of the corresponding pixel in the input image with its neighbors. Mathematical morphology has been used for the analysis of DEMs, which are regarded as a grayscale image with the gray level of a pixel standing for its elevation above the base plane [12], [13], [15].…”

Section: A Mathematical Morphologymentioning

confidence: 99%

“…In particular, by changing the filter window size and using elevation difference thresholds, nonground features with different sizes can be effectively removed [11]. In addition, morphology-based approaches have been also used for basin delineation from DEMs [12], peaks and pits reconstruction from DEMs [13], and outlier elimination from Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) DEMs [14], [15], etc. These studies inspired us to apply mathematical morphology to the SRTM DEM for deriving the GLD.…”

Section: Introductionmentioning

confidence: 99%

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Extracting Ground-Level DEM From SRTM DEM in Forest Environments Based on Mathematical Morphology

Liu¹,

Liu

Alsdorf

2014

IEEE Trans. Geosci. Remote Sensing

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The demands for bare-earth or ground-level digital elevation models (DEMs) are significant for various environmental and ecological studies. As one of the most widely used global DEMs, the Shuttle Radar Topography Mission (SRTM) DEM is available to the public. However, the SRTM DEM is not a bare-earth DEM because it includes man-made structures and vegetation. The objective of this paper is to develop a mathematical morphology-based approach to generate ground-level DEM (GLD) from the SRTM DEM in forest environments. The proposed algorithm is implemented as follows. First, an initial GLD is derived from the SRTM DEM by using morphological operations with a single structuring element. Second, homogeneous forest patches are generated by applying watershed segmentation to pseudocanopy height (PCH) that is obtained by subtracting the initial GLD from the SRTM DEM. Based on segmented patches, a refined GLD is derived by using morphological operations with adaptive structuring elements of different sizes. Third, PCH is updated with the refined GLD and then resegmented into forest patches, from which a final GLD is obtained by subtracting the updated mean PCH from the SRTM DEM. Finally, bare-earth DEMs from the National Elevation Data Set (NED) are used to validate the extracted GLD. The results show that the root mean square error of the final GLD compared with the NED is significantly reduced for two study sites. This type of GLD would be applicable to large-scale environmental studies where accurate topographical information is not available. Index Terms-Ground-level digital elevation model (DEM), mathematical morphology, National Elevation Data Set (NED), Shuttle Radar Topography Mission (SRTM) DEM.

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Section: A Mathematical Morphologymentioning

confidence: 99%