Super-high-resolution aerial imagery, digital surface model and 3D point cloud of Kivalina, Alaska

As part of the Perma-X airborne campaign led by the Alfred Wegener Institute in 2021, we collected super-high-resolution multispectral imagery of permafrost landscapes with the Modular Aerial Camera System (MACS), developed by the German Aerospace Center. From these images, we photogrammetrically pr...

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Bibliographic Details
Main Authors: Rettelbach, Tabea, Nitze, Ingmar, Grünberg, Inge, Hammar, Jennika, Schäffler, Simon, Hein, Daniel, Gessner, Matthias, Bucher, Tilman, Brauchle, Jörg, Hartmann, Jörg, Sachs, Torsten, Boike, Julia, Grosse, Guido
Format: Dataset
Language:English
Published: PANGAEA
Subjects:
AC
Airborne Data
Aircraft
Alaska
Arctic
Arctic Landscape Dynamics
Binary Object
Coastal erosion
Digital Surface Model
File content
MACS
Orthoimagery
P6_224_Perma_X_2021
P6_224_Perma_X_2021_2107030901
Permafrost
Perma-X 2021 Western Alaska
Point cloud
LAS file
point clouds
POLAR 6
Project
Raster graphic
GeoTIFF format
Structure-from-Motion
Alfred Wegener Institute
permafrost
Thermokarst
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.962744
Description
Summary:As part of the Perma-X airborne campaign led by the Alfred Wegener Institute in 2021, we collected super-high-resolution multispectral imagery of permafrost landscapes with the Modular Aerial Camera System (MACS), developed by the German Aerospace Center. From these images, we photogrammetrically processed four-band orthophotos (blue, green, red, near-infrared) and digital surface models at a spatial resolution of 10 cm, as well as photogrammetric point clouds in RGB and NIR at 3.95 pts/m² and 1.46 pts/m², respectively. This dataset covers approximately 4.14 km² of the Kivalina settlement in Alaska, with all images collected on 3 July 2021. This super-high-resolution dataset provides opportunities for generating detailed training datasets of permafrost landform inventories, a baseline for change detection for thermokarst and thermo-erosion processes, and upscaling of field measurements to lower-resolution satellite observations.

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