Orthomosaics, digital elevation model, and QGIS project of the 'Bear Trap' - a Norse ruin in Northwest Greenland
This dataset consists of a digital elevation model (DEM), orthomosaics, and a QGIS project of the ‘Bear Trap’ (also called ‘Bjørnefælden’ in Danish, and ‘Putdlagssuaq’ or ‘The Great Trap’ Greenlandic Kalaallisut), a Norse ruin at the western end of the Nuussuaq Peninsula in NW Greenland. Images comp...
| Main Authors: | , , , |
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| Format: | Dataset |
| Language: | English |
| Published: |
2020
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| Subjects: | |
| Online Access: | https://zenodo.org/record/4013258 https://doi.org/10.5281/zenodo.4013258 |
| Summary: | This dataset consists of a digital elevation model (DEM), orthomosaics, and a QGIS project of the ‘Bear Trap’ (also called ‘Bjørnefælden’ in Danish, and ‘Putdlagssuaq’ or ‘The Great Trap’ Greenlandic Kalaallisut), a Norse ruin at the western end of the Nuussuaq Peninsula in NW Greenland. Images comprise 1113 low-altitude aerial images acquired from an unoccupied aerial vehicle (DJI Phantom 3 Standard). These images were processed using Agisoft PhotoScan Pro (v1.4; Linux Ubuntu). The locations of 13 ground control points (GCPs) were surveyed with a high accuracy global navigation satellite system (GNSS) receiver (Emlid Reach). The base station and rover data were processed using the Emlid distribution of the free RTKLib software (https://docs.emlid.com/reach/common/tutorials/gps-post-processing/). Geoid height was computed using the online UNAVCO Geoid Height Calculator (https://www.unavco.org/software/geodetic-utilities/geoid-height-calculator/geoid-height-calculator.html). During the image alignment step in PhotoScan, the ‘High’ accuracy setting and key point and tie point limits of 60000 and 0 were used. Generic and reference preselection were also used. Gradual selection was used to remove tie points that exceeded thresholds for the projection accuracy, reconstruction uncertainty, and reprojection error and the lens parameters were computed. GCPs were then imported and placed in each image. The dense point cloud was then computed using the ‘Medium’ setting, followed by the DEM and orthomosaic. The resolution of the orthomosaic is 1.92 cm/pixel. A 7 cm resolution orthomosaic was also exported for use in QGIS. A complete file list is provided in the README file that accompanies this dataset. The image survey was conducted as part of the Vaigat Iceberg-Microbial Oil Degradation and Archaeological Heritage Investigation (VIMOA) project, which was funded by the Danish Centre for Marine Research and supported by the Arctic Research Centre at Aarhus University, in affiliation with the National Museum of Denmark, the ... |
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