Individual Tree Measurement in Tropical Environment using Terrestrial Laser Scanning
DOI:
https://doi.org/10.11113/jt.v73.4329Keywords:
Individual tree measurement, forest, terrestrial laser scanningAbstract
Detailed forest inventory and mensuration of individual trees have drawn attention of research society mainly to support sustainable forest management. This study aims at estimating individual tree attributes from high density point cloud obtained by terrestrial laser scanner (TLS). The point clouds were obtained over single reference tree and group of trees in forest area. The reference tree is treated as benchmark since detailed measurements of branch diameter were made on selected branches with different sizes and locations. Diameter at breast height (DBH) was measured for trees in forest. Furthermore tree height, height to crown base, crown volume and tree branch volume were also estimated for each tree. Branch diameter is estimated directly from the point clouds based on semi-automatic approach of model fitting i.e. sphere, ellipse and cylinder. Tree branch volume is estimated based on the volume of the fitted models. Tree height and height to crown base are computed using histogram analysis of the point clouds elevation. Tree crown volume is estimated by fitting a convex-hull on the tree crown. The results show that the Root Mean Squared Error (RMSE) of the estimated tree branch diameter does not have a specific trend with branch sizes and number of points used for fitting process. This explains complicated distribution of point clouds over the branches. Overall cylinder model produces good results with most branch sizes and number of point clouds for fitting. The cylinder fitting approach shows significantly better estimation results compared to sphere and ellipse fitting models. Â Â
References
WWF-Malaysia. 2013, 21 November. The Malaysian Rainforest. Available: http://www.wwf.org.my/about_wwf/what_we_do/forests_main/the_malaysian_rainforest/.
KoutaR, et al. 2013, 2 November. Exactly measuring tree height. Available: http://www.monumentaltrees.com/en/content/measuringheight/.
R. Nelson, et al. 1984. Determining Forest Canopy Characteristics Using Airborne Laser Data. Remote Sensing of Environment. 15: 201–212.
C. Hopkinson, et al. 2004. Assessing Forest Metrics with a Ground-based Scanning Lidar. Canadian Journal of Forest Research. 34: 573–583.
J. Lovell, et al. 2011. Measuring Tree Stem Diameters Using Intensity Profiles from Ground-Based Scanning Lidar from a Fixed Viewpoint. ISPRS Journal of Photogrammetry and Remote Sensing. 66: 46–55.
X. Yang, et al. 2013. Three-dimensional Forest Reconstruction and Structural Parameter Retrievals Using a Terrestrial Full-waveform Lidar Instrument (Echidna®). Remote Sensing of Environment. 135: 36–51.
T. Yao, et al. 2011. Measuring Forest Structure and Biomass in New England Forest Stands Using Echidna Ground-based Lidar. Remote Sensing of Environment. 115: 2965–2974.
M. Thies, et al. 2004. Three-dimensional Reconstruction of Stems for Assessment of Taper, Sweep and Lean Based on Laser Scanning of Standing Trees. Scandinavian Journal of Forest Research. 19: 571–581.
P. Watt and D. Donoghue. 2005. Measuring Forest Structure with Terrestrial Laser Scanning. International Journal of Remote Sensing. 26: 1437–1446.
B. Gorte and N. Pfeifer. 2004. Structuring Laser-scanned Trees Using 3D Mathematical Morphology. International Archives of Photogrammetry and Remote Sensing. 35: 929–933.
N. Pfeifer, et al. 2004. Automatic Reconstruction of Single Trees from Terrestrial Laser Scanner Data. In Proceedings of 20th ISPRS Congress. 114–119.
P. Raumonen, et al. 2013. Fast Automatic Precision Tree Models from Terrestrial Laser Scanner Data. Remote Sensing. 5: 491–520.
A. Bucksch and R. Lindenbergh. 2008. CAMPINO-A Skeletonization Method for Point Cloud Processing. Isprs Journal of Photogrammetry and Remote Sensing. 63: 115–127.
A. Bucksch, et al. 2010. SkelTre Robust Skeleton Extraction from Imperfect Point Clouds. Visual Computer. 26: 1283–1300.
M. Z. A. Rahman, et al. 2012. A Generic Approach in Estimating Vegetation Density for Hydrodynamic Roughness Parameterization Using High Density Airborne Laser Scanning Data. Journal of Hydroinformatics.
A. Fernández-SarrÃa, et al. 2013. Different Methodologies for Calculating Crown Volumes of Platanus Hispanica Trees Using Terrestrial Laser Scanner and a Comparison with Classical Dendrometric Measurements. Computers and Electronics in Agriculture.90: 176–185.
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