Title :
Integrating LiDAR Intensity and Elevation Data for Terrain Characterization in a Forested Area
Author :
Wang, Cheng ; Glenn, Nancy F.
Author_Institution :
Boise Center Aerosp. Lab., Idaho State Univ., Boise, ID
fDate :
7/1/2009 12:00:00 AM
Abstract :
Separating ground from nonground laser returns from airborne light detection and ranging (LiDAR) data is a key step in creating digital terrain models (DTMs). In this letter, bare-earth and forested surfaces are classified from LiDAR intensity data in a data set from central Idaho, U.S. Next, a Gaussian fitting (GF) method is applied to determine ground elevations from LiDAR elevation data according to the land-cover information. In comparison to ground-based reference data, the GF method generated an accurate DTM in this study area. Overall, the DTM underestimated the ground observations by approximately 31 cm. A combination of LiDAR intensity and elevation data may be effectively used to develop DTMs in similar terrain of relatively simple land-cover classes.
Keywords :
Gaussian distribution; airborne radar; geophysical techniques; optical radar; remote sensing by radar; Gaussian fitting method; USA; airborne light detection and ranging; central Idaho; digital terrain models; forested area; ground elevation data; ground observations; ground-based reference data; integrating LiDAR intensity; land-cover classes; land-cover information; nonground laser returns; terrain characterization; Digital terrain model (DTM); Gaussian fitting (GF) model; forested mountain area; light detection and ranging (LiDAR);
Journal_Title :
Geoscience and Remote Sensing Letters, IEEE
DOI :
10.1109/LGRS.2009.2016986
