The aim of the topographic normalization of remotely sensed imagery (TNRSI) is to reduce reflectance variability caused by steep terrain and, subsequently, to improve land-cover classification. Recently, multiple-forward-mode (FM) (MFM) reflectance models for topographic normalizations of medium-resolution (20-30 m) satellite imagery have improved the classification of forested covers with respect to more conventional topographic corrections. We propose an FM 3-D reflectance (FM3DR) model, based on the Discrete Anisotropic Radiative Transfer simulator, for the topographic normalization of high-resolution (1-5 m) imagery. The feasibility of this approach was first verified on real IKONOS imagery for three forest types within major biomes (oa...
Summary The efficient monitoring of forests is essential in the fields of forest resource assessmen...
xiii, 143 leaves : ill. (some col.) ; 29 cm.Three-dimensional canopy relectance models provide a phy...
The 3-D Radiative Transfer Model (RTM) FLIGHT can represent scattering in open forest or savannas fe...
The aim of the topographic normalization of remotely sensed imagery (TNRSI) is to reduce reflectance...
Topographic correction methods rarely consider the canopy parameter effects directly and explicitly ...
Quantitative retrieval of land surface biological parameters (e.g. foliage projective cover [FPC] an...
The aim of the topographic normalization of remotely sensed imagery is to reduce reflectance variabi...
Thesis (Ph. D.)--University of Washington, 1998Satellite remote sensors sample the upwelling reflect...
ABSTRACT: The Normalized Difference Vegetation Index (NDVI) is based on the normalized difference of...
The reflected radiance in topographically complex areas is severely affected by variations in topogr...
Solar radiation is affected by absorption and emission phenomena during its downward trajectory from...
The reflected radiance in topographically complex areas is severely affected by variations in topogr...
As cloud cover exacerbates the application of optical satellite data for forest monitoring in tropic...
A rapid canopy reflectance model inversion experiment was performed using multi-angle reflectance da...
Three-dimensional (3D) radiative transfer models of vegetation canopies are increasingly used to stu...
Summary The efficient monitoring of forests is essential in the fields of forest resource assessmen...
xiii, 143 leaves : ill. (some col.) ; 29 cm.Three-dimensional canopy relectance models provide a phy...
The 3-D Radiative Transfer Model (RTM) FLIGHT can represent scattering in open forest or savannas fe...
The aim of the topographic normalization of remotely sensed imagery (TNRSI) is to reduce reflectance...
Topographic correction methods rarely consider the canopy parameter effects directly and explicitly ...
Quantitative retrieval of land surface biological parameters (e.g. foliage projective cover [FPC] an...
The aim of the topographic normalization of remotely sensed imagery is to reduce reflectance variabi...
Thesis (Ph. D.)--University of Washington, 1998Satellite remote sensors sample the upwelling reflect...
ABSTRACT: The Normalized Difference Vegetation Index (NDVI) is based on the normalized difference of...
The reflected radiance in topographically complex areas is severely affected by variations in topogr...
Solar radiation is affected by absorption and emission phenomena during its downward trajectory from...
The reflected radiance in topographically complex areas is severely affected by variations in topogr...
As cloud cover exacerbates the application of optical satellite data for forest monitoring in tropic...
A rapid canopy reflectance model inversion experiment was performed using multi-angle reflectance da...
Three-dimensional (3D) radiative transfer models of vegetation canopies are increasingly used to stu...
Summary The efficient monitoring of forests is essential in the fields of forest resource assessmen...
xiii, 143 leaves : ill. (some col.) ; 29 cm.Three-dimensional canopy relectance models provide a phy...
The 3-D Radiative Transfer Model (RTM) FLIGHT can represent scattering in open forest or savannas fe...