Title :
Single strata canopy cover estimation using airborne laser scanning data
Author :
Ferraz, Antonio ; Mallet, Clement ; Goncalves, Gil ; Tome, Margarida ; Soares, Pedro ; Pereira, Luis ; Jacquemoud, Stephane
Author_Institution :
Lab. MATIS, Univ. Paris Est, St. Mande, France
Abstract :
Canopy height and canopy cover are two important biophysical variables in forest characterization. As far as airborne laser scanning (ALS) studies is concerned, canopy height has been mapped at a high spatial resolution through canopy height models (CHM). Conversely, canopy cover had been computed at a coarser resolution (plot-level) by means of penetration rate metrics (PRM). In this work we present a method dedicated to compute single strata canopy cover at a spatial resolution similar to the CHM. Vegetation density maps are interpolated from the ALS point cloud pattern using a novel method based on the kernel density estimators (KDE). We developed an automatic variable-bandwidth approach that accommodates for both the point cloud density variability inherent to any ALS survey and the shading effect induced by taller canopy on laser beams. Results are compared with the PRM approach.
Keywords :
interpolation; remote sensing by laser beam; vegetation; vegetation mapping; ALS point cloud pattern; ALS survey; CHM; KDE; PRM; airborne laser scanning data; automatic variable-bandwidth approach; biophysical variables; canopy height models; forest characterization; kernel density estimators; laser beams; penetration rate metrics; point cloud density variability; shading effect; single strata canopy cover estimation; spatial resolution; vegetation density map interpolation; Bandwidth; Estimation; Kernel; Laser beams; Measurement by laser beam; Surface emitting lasers; Vegetation mapping; airborne laser scanning; canopy cover; forest;
Conference_Titel :
Geoscience and Remote Sensing Symposium (IGARSS), 2013 IEEE International
Conference_Location :
Melbourne, VIC
Print_ISBN :
978-1-4799-1114-1
DOI :
10.1109/IGARSS.2013.6721122
