10.18710/AED5GTHann, RichardRichardHann0000-0002-0577-5812NTNU – Norwegian University of Science and TechnologyDrone-based mapping of the Endalen alluvial fan in SvalbardDataverseNO2021Earth and Environmental SciencesSvalbardDEMOrthomosiacEndalenDrone mappingOrthomosaicGeomorphologyHann, RichardRichardHannNTNU – Norwegian University of Science and TechnologyNTNU – Norwegian University of Science and TechnologyNTNU – Norwegian University of Science and TechnologyNTNU – Norwegian University of Science and Technology2021-10-182021-10-2945663094808781273029672818642965026602297322770278269408396215442376661156128text/plainapplication/zipapplication/zipapplication/zipapplication/zipimage/tiffimage/pngapplication/pdfapplication/zip1.0CC0 1.0This database contains a digital elevation model (DEM) and an orthomosaic map of the Endalen alluvial fan in Svalbard. The DEM and orthomosaic were built from drone-based images and a structure from motion (SfM) method with Agisoft Metashape version 1.7.4. The Endalen alluvial fan is a river outlet in Adventdalen, Svalbard. This dataset was generated in scope of a course at the University Centre in Svalbard (UNIS): "AG-221 Arctic Physical Geographical Field Techniques". The dataset contains results from 2019 and 2021. The 2019 dataset covers a smaller area but with different mapping settings (i.e. drone altitude and sideways overlap). The 2021 dataset covers the entire area. (2022-10-10) The datasets have the following naming convention: - 2019_400ft_80: Dataset from 2019 with nadir drone images taken at 400ft/120m altitude with a side-overlap of 80%. - 2019_400ft_70: Dataset from 2019 with nadir drone images taken at 400ft/120m altitude with a side-overlap of 70%. - 2019_400ft_60: Dataset from 2019 with nadir drone images taken at 400ft/120m altitude with a side-overlap of 60%. - 2019_280ft_80: Dataset from 2019 with nadir drone images taken at 280ft/85m altitude with a side-overlap of 80%. - 2019_Circle: Dataset from 2019 with oblique drone images. - 2021_400ft_70: Dataset from 2021 with drone images taken at 400ft/120m altitude with a side-overlap of 70%.