Wind during terrestrial laser scanning of trees: Simulation-based assessment of effects on point cloud features and leaf-wood classification
LiDAR point cloud data of trees is often affected by wind-induced movements. This leads to misalignments between overlapping point clouds and distortions in the merged representation. Understanding these wind effects is crucial since they affect downstream tasks like tree parameter quantification an...
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Copernicus Publications
2025-07-01
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| Series: | ISPRS Annals of the Photogrammetry, Remote Sensing and Spatial Information Sciences |
| Online Access: | https://isprs-annals.copernicus.org/articles/X-G-2025/25/2025/isprs-annals-X-G-2025-25-2025.pdf |
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| author | W. Albert H. Weiser H. Weiser R. Tabernig R. Tabernig B. Höfle B. Höfle |
| author_facet | W. Albert H. Weiser H. Weiser R. Tabernig R. Tabernig B. Höfle B. Höfle |
| author_sort | W. Albert |
| collection | DOAJ |
| description | LiDAR point cloud data of trees is often affected by wind-induced movements. This leads to misalignments between overlapping point clouds and distortions in the merged representation. Understanding these wind effects is crucial since they affect downstream tasks like tree parameter quantification and leaf-wood separation. In this study, we investigate the impact of wind during multi-station Terrestrial Laser Scanning (TLS) acquisition on tree structure and leaf-wood classification by simulating TLS acquisitions of trees in both static and windy conditions using the LiDAR simulator HELIOS++. To assess wind effects, we compare the geometric features of leaf and wood points in each scenario and validate our simulations with real tree point clouds acquired in windy conditions. Finally, we train a Random Forest classifier for leaf-wood segmentation on both static and dynamic data and evaluate their performance on both datasets. Our results highlight that two of the nine geometric features are statistically significant in differentiating leaf and wood in windy conditions, compared to six features in static conditions. When trained with static data, leaf-wood classification results drop by ca. 10% intersection over union and decrease by ca. 4% overall accuracy from static to dynamic conditions. Further, we demonstrate that increasing the number of scan positions (i.e. from using one to merging 6 point clouds per tree) reduces classification success by ca. 25% in static conditions and ca. 35% in windy conditions. Our findings emphasize the need to account for wind effects in leaf-wood classification. We show that training on dynamic data can slightly improve classification of dynamic data (ca. 2%) compared to training on static data. |
| format | Article |
| id | doaj-art-e209a4fa71b74770a55eb1d8dc306930 |
| institution | OA Journals |
| issn | 2194-9042 2194-9050 |
| language | English |
| publishDate | 2025-07-01 |
| publisher | Copernicus Publications |
| record_format | Article |
| series | ISPRS Annals of the Photogrammetry, Remote Sensing and Spatial Information Sciences |
| spelling | doaj-art-e209a4fa71b74770a55eb1d8dc3069302025-08-20T02:35:43ZengCopernicus PublicationsISPRS Annals of the Photogrammetry, Remote Sensing and Spatial Information Sciences2194-90422194-90502025-07-01X-G-2025253210.5194/isprs-annals-X-G-2025-25-2025Wind during terrestrial laser scanning of trees: Simulation-based assessment of effects on point cloud features and leaf-wood classificationW. Albert0H. Weiser1H. Weiser2R. Tabernig3R. Tabernig4B. Höfle5B. Höfle63DGeo Research Group, Institute of Geography, Heidelberg University, Germany3DGeo Research Group, Institute of Geography, Heidelberg University, GermanyInterdisciplinary Center for Scientific Computing (IWR), Heidelberg University, Germany3DGeo Research Group, Institute of Geography, Heidelberg University, GermanyInterdisciplinary Center for Scientific Computing (IWR), Heidelberg University, Germany3DGeo Research Group, Institute of Geography, Heidelberg University, GermanyInterdisciplinary Center for Scientific Computing (IWR), Heidelberg University, GermanyLiDAR point cloud data of trees is often affected by wind-induced movements. This leads to misalignments between overlapping point clouds and distortions in the merged representation. Understanding these wind effects is crucial since they affect downstream tasks like tree parameter quantification and leaf-wood separation. In this study, we investigate the impact of wind during multi-station Terrestrial Laser Scanning (TLS) acquisition on tree structure and leaf-wood classification by simulating TLS acquisitions of trees in both static and windy conditions using the LiDAR simulator HELIOS++. To assess wind effects, we compare the geometric features of leaf and wood points in each scenario and validate our simulations with real tree point clouds acquired in windy conditions. Finally, we train a Random Forest classifier for leaf-wood segmentation on both static and dynamic data and evaluate their performance on both datasets. Our results highlight that two of the nine geometric features are statistically significant in differentiating leaf and wood in windy conditions, compared to six features in static conditions. When trained with static data, leaf-wood classification results drop by ca. 10% intersection over union and decrease by ca. 4% overall accuracy from static to dynamic conditions. Further, we demonstrate that increasing the number of scan positions (i.e. from using one to merging 6 point clouds per tree) reduces classification success by ca. 25% in static conditions and ca. 35% in windy conditions. Our findings emphasize the need to account for wind effects in leaf-wood classification. We show that training on dynamic data can slightly improve classification of dynamic data (ca. 2%) compared to training on static data.https://isprs-annals.copernicus.org/articles/X-G-2025/25/2025/isprs-annals-X-G-2025-25-2025.pdf |
| spellingShingle | W. Albert H. Weiser H. Weiser R. Tabernig R. Tabernig B. Höfle B. Höfle Wind during terrestrial laser scanning of trees: Simulation-based assessment of effects on point cloud features and leaf-wood classification ISPRS Annals of the Photogrammetry, Remote Sensing and Spatial Information Sciences |
| title | Wind during terrestrial laser scanning of trees: Simulation-based assessment of effects on point cloud features and leaf-wood classification |
| title_full | Wind during terrestrial laser scanning of trees: Simulation-based assessment of effects on point cloud features and leaf-wood classification |
| title_fullStr | Wind during terrestrial laser scanning of trees: Simulation-based assessment of effects on point cloud features and leaf-wood classification |
| title_full_unstemmed | Wind during terrestrial laser scanning of trees: Simulation-based assessment of effects on point cloud features and leaf-wood classification |
| title_short | Wind during terrestrial laser scanning of trees: Simulation-based assessment of effects on point cloud features and leaf-wood classification |
| title_sort | wind during terrestrial laser scanning of trees simulation based assessment of effects on point cloud features and leaf wood classification |
| url | https://isprs-annals.copernicus.org/articles/X-G-2025/25/2025/isprs-annals-X-G-2025-25-2025.pdf |
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