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Medientyp:
E-Artikel
Titel:
Tree Stem Detection and Crown Delineation in a Structurally Diverse Deciduous Forest Combining Leaf-On and Leaf-Off UAV-SfM Data
Beteiligte:
Dietenberger, Steffen;
Mueller, Marlin M.;
Bachmann, Felix;
Nestler, Maximilian;
Ziemer, Jonas;
Metz, Friederike;
Heidenreich, Marius G.;
Koebsch, Franziska;
Hese, Sören;
Dubois, Clémence;
Thiel, Christian
Erschienen:
MDPI AG, 2023
Erschienen in:Remote Sensing
Sprache:
Englisch
DOI:
10.3390/rs15184366
ISSN:
2072-4292
Entstehung:
Anmerkungen:
Beschreibung:
<jats:p>Accurate detection and delineation of individual trees and their crowns in dense forest environments are essential for forest management and ecological applications. This study explores the potential of combining leaf-off and leaf-on structure from motion (SfM) data products from unoccupied aerial vehicles (UAVs) equipped with RGB cameras. The main objective was to develop a reliable method for precise tree stem detection and crown delineation in dense deciduous forests, demonstrated at a structurally diverse old-growth forest in the Hainich National Park, Germany. Stem positions were extracted from the leaf-off point cloud by a clustering algorithm. The accuracy of the derived stem co-ordinates and the overall UAV-SfM point cloud were assessed separately, considering different tree types. Extracted tree stems were used as markers for individual tree crown delineation (ITCD) through a region growing algorithm on the leaf-on data. Stem positioning showed high precision values (0.867). Including leaf-off stem positions enhanced the crown delineation, but crown delineations in dense forest canopies remain challenging. Both the number of stems and crowns were underestimated, suggesting that the number of overstory trees in dense forests tends to be higher than commonly estimated in remote sensing approaches. In general, UAV-SfM point clouds prove to be a cost-effective and accurate alternative to LiDAR data for tree stem detection. The combined datasets provide valuable insights into forest structure, enabling a more comprehensive understanding of the canopy, stems, and forest floor, thus facilitating more reliable forest parameter extraction.</jats:p>