Title :
Vegetation isoline equations for an atmosphere-canopy-soil system
Author :
Yoshioka, Hiroki
Author_Institution :
Dept. of Urban Sci., Meijo Univ., Gifu, Japan
Abstract :
The relationship between the reflectances at two different wavelengths over a three-layer system comprising atmosphere, canopy, and soil layers is derived. This work is an extension of the isoline equation previously derived in a red and near-infrared (NIR) reflectance space for a canopy-soil system. As a result of retaining only the zeroth and first-order interaction terms between the layers, the relationship has a linear form in which the slope and offset are functions of the optical properties of each layer. Numerical examples of isolines based on the derived expressions are obtained under various conditions and are shown to demonstrate some of the known behaviors of isolines. Since the derived expression relates a pair of reflectances, it is expected to be useful for the analysis of satellite data products involving algebraic manipulations of spectral reflectances, such as spectral vegetation indexes.
Keywords :
atmospheric boundary layer; soil; vegetation mapping; NIR reflectance space; algebraic manipulations; atmosphere-canopy-soil system; first-order interaction; inversion; near-infrared reflectance; offset functions; optical properties; parameter retrieval; red reflectance; satellite data products; slope functions; spectral reflectances; spectral vegetation indexes; three-layer system; vegetation isoline equations; zeroth interaction; Aerosols; Atmosphere; Atmospheric waves; Data analysis; Equations; Helium; Reflectivity; Satellites; Soil; Vegetation mapping;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
DOI :
10.1109/TGRS.2003.817793
