Title :
Effect of the vegetation clumping on the BRDF of a semi-arid grassland: comparison of the SAIL model and ray tracing method applied to a 3D computerized vegetation canopy
Author :
Luquet, D. ; Begue, A. ; Dauzat, J. ; Nouvellon, Y. ; Rey, H.
Author_Institution :
CIRAD, Montpellier, France
Abstract :
A 3D model of vegetation, the AMAP Software (Atelier de Mode´lisation de l´Architecture des Plantes, CIRAD), is used with a ray-tracing method to compute radiative transfer of sparse canopies. In a first step, the ray-tracing model is validated against two well-known radiative transfer models: a turbid medium model, SAIL, in the case of an homogeneous canopy, and a geometrical model of cylinders for clumped vegetation. Then, botanical measurements of semi-arid grassland acquired during the SALSA project in 1997 (Sonora, Mexico) are used to create 3D realistic scenes of vegetation. The BRDF of these 3D scenes is compared to the BRDF of a turbid medium equivalent in terms of vegetation parameters (leaf area index, leaf angle inclinations…). It is then possible to evaluate the error committed when sparse clumped canopies are treated as turbid media
Keywords :
radiative transfer; ray tracing; remote sensing; 3D computerized vegetation canopy model; AMAP Software; Atelier de Modelisation de l´Architecture des Plantes; Mexico; SAIL model; SALSA project; San Pedro Basin; Sonora; clumped vegetation; error; homogeneous canopy; leaf angle inclination; leaf area index; radiative transfer models; ray tracing method; semi-arid grassland; sparse clumped canopies; turbid medium model; vegetation clumping; vegetation parameters; Atmospheric modeling; Computational modeling; Computer architecture; Crops; Distributed computing; Layout; Ray tracing; Remote sensing; Solid modeling; Vegetation;
Conference_Titel :
Geoscience and Remote Sensing Symposium Proceedings, 1998. IGARSS '98. 1998 IEEE International
Conference_Location :
Seattle, WA
Print_ISBN :
0-7803-4403-0
DOI :
10.1109/IGARSS.1998.699585
