Title :
Accuracy of the LiDAR-derived DEM in dense shrub areas in mountainous NW US
Author :
Huang, Hongyu ; Link, T. ; Smith, A. ; Chen, Chongcheng
Author_Institution :
Spatial Inf. Res. Center, Fuzhou Univ., Fuzhou, China
fDate :
June 29 2011-July 1 2011
Abstract :
Digital elevation model (DEM) is one of the most important information that can be derived from the airborne LiDAR data. However in areas covered by dense vegetation, the chance of laser passing through the canopy, hitting the ground and back to the receiver is limited, thus it is difficult to achieve accurate DEM in regions with dense vegetative covers (trees, shrubs and grasses). We considered the challenges in deriving accurate terrain elevation information from LiDAR data: identifying areas covered with dense vegetation, separating LiDAR point clouds into ground and non-ground returns, interpolating to create raster surface models. A case study in the semi-arid mountainous area of the Northwest US shows that dense shrub caused about 20 cm DEM error in vertical accuracy, in line with similar study results of LiDAR derived DEM from dense grass areas. Terrain, cover type and LiDAR acquisition parameters (scan or incidence angle, point density) can also affect accuracy.
Keywords :
digital elevation models; geophysical signal processing; optical radar; remote sensing by laser beam; terrain mapping; topography (Earth); vegetation; airborne lidar data; dense shrub areas; dense vegetative cover; digital elevation model; lidar derived DEM accuracy; lidar point clouds; nonground radar returns; northwestern USA; terrain elevation information; Accuracy; Classification algorithms; Filtering; Global Positioning System; Laser radar; Remote sensing; Vegetation mapping; bare earth; elevation; errors; laser scanning; rangeland; terrain;
Conference_Titel :
Spatial Data Mining and Geographical Knowledge Services (ICSDM), 2011 IEEE International Conference on
Conference_Location :
Fuzhou
Print_ISBN :
978-1-4244-8352-5
DOI :
10.1109/ICSDM.2011.5969067
