Vertical stratification of forest canopy for segmentation of under-story trees within small-footprint airborne LiDAR point clouds

December 31, 2016 Β· Declared Dead Β· πŸ› ISPRS Journal of Photogrammetry and Remote Sensing 130C (2017) pp. 385-392

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Authors Hamid Hamraz, Marco A. Contreras, Jun Zhang arXiv ID 1701.00169 Category cs.CV: Computer Vision Cross-listed cs.CE, cs.CG Citations 87 Venue ISPRS Journal of Photogrammetry and Remote Sensing 130C (2017) pp. 385-392 Last Checked 4 months ago
Abstract
Airborne LiDAR point cloud representing a forest contains 3D data, from which vertical stand structure even of understory layers can be derived. This paper presents a tree segmentation approach for multi-story stands that stratifies the point cloud to canopy layers and segments individual tree crowns within each layer using a digital surface model based tree segmentation method. The novelty of the approach is the stratification procedure that separates the point cloud to an overstory and multiple understory tree canopy layers by analyzing vertical distributions of LiDAR points within overlapping locales. The procedure does not make a priori assumptions about the shape and size of the tree crowns and can, independent of the tree segmentation method, be utilized to vertically stratify tree crowns of forest canopies. We applied the proposed approach to the University of Kentucky Robinson Forest - a natural deciduous forest with complex and highly variable terrain and vegetation structure. The segmentation results showed that using the stratification procedure strongly improved detecting understory trees (from 46% to 68%) at the cost of introducing a fair number of over-segmented understory trees (increased from 1% to 16%), while barely affecting the overall segmentation quality of overstory trees. Results of vertical stratification of the canopy showed that the point density of understory canopy layers were suboptimal for performing a reasonable tree segmentation, suggesting that acquiring denser LiDAR point clouds would allow more improvements in segmenting understory trees. As shown by inspecting correlations of the results with forest structure, the segmentation approach is applicable to a variety of forest types.
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