Add to ORKGTwo stream methods provide rapid approximate calculations of radiative transfer in scattering and absorbing media. Although they provide information on fluxes only, and not on intensities, their speed makes them attractive to more precise methods. The methods provide a comprehensive, unified review for a homogeneous layer, and solve the equations for reflectance and transmittance for a homogeneous layer over a non reflecting surface. Any of the basic kernels for a single layer can be extended to a vertically inhomogeneous medium over a surface whose reflectance properties vary with illumination angle, as long as the medium can be subdivided into homogeneous layers
A multilevel spectral radiative transfer model is used to develop simple but accurate parameterizati...
The equivalence of three separate investigations that related LANDSAT digital count (DC) to ground m...
Present radiative transfer methods in physically based energy budget models of snow do not include a...
Spectral reflectance of snow under diffuse illumination is studied using the two-stream approximatio...
Thematic mapper radiometric characteristics, snow/cloud reflectance, and atmospheric correction are ...
The atmospheric radiative transfer calculation program (ATARD) and its supporting programs (setting ...
Spectral and integrated solar reflectance of nonhomogeneous snowpacks were derived assuming surface ...
Progress on the registration of TM data to digital topographic data; on comparison of TM, MSS and NO...
The radiative transfer equation was solved using a modified Schuster-Schwartzschild approximation to...
Snow reflectance in all 6 TM reflective bands, i.e., 1, 2, 3, 4, 5, and 7 was simulated using a delt...
[1] The spectral albedo of dry, vertically heterogeneous snow is simulated using a multilayer discre...
The author has identified the following significant results. Characteristics of LANDSAT MSS imagery ...
Characterization of the Earth's surface is crucial to remote sensing, both to map geomorphological f...
A simple tutorial method, based on a photon tracking procedure, is described to determine the spheri...
Characterization of the Earth’s surface is crucial to remote sensing, both to map geomorphological f...
A multilevel spectral radiative transfer model is used to develop simple but accurate parameterizati...
The equivalence of three separate investigations that related LANDSAT digital count (DC) to ground m...
Present radiative transfer methods in physically based energy budget models of snow do not include a...
Spectral reflectance of snow under diffuse illumination is studied using the two-stream approximatio...
Thematic mapper radiometric characteristics, snow/cloud reflectance, and atmospheric correction are ...
The atmospheric radiative transfer calculation program (ATARD) and its supporting programs (setting ...
Spectral and integrated solar reflectance of nonhomogeneous snowpacks were derived assuming surface ...
Progress on the registration of TM data to digital topographic data; on comparison of TM, MSS and NO...
The radiative transfer equation was solved using a modified Schuster-Schwartzschild approximation to...
Snow reflectance in all 6 TM reflective bands, i.e., 1, 2, 3, 4, 5, and 7 was simulated using a delt...
[1] The spectral albedo of dry, vertically heterogeneous snow is simulated using a multilayer discre...
The author has identified the following significant results. Characteristics of LANDSAT MSS imagery ...
Characterization of the Earth's surface is crucial to remote sensing, both to map geomorphological f...
A simple tutorial method, based on a photon tracking procedure, is described to determine the spheri...
Characterization of the Earth’s surface is crucial to remote sensing, both to map geomorphological f...
A multilevel spectral radiative transfer model is used to develop simple but accurate parameterizati...
The equivalence of three separate investigations that related LANDSAT digital count (DC) to ground m...
Present radiative transfer methods in physically based energy budget models of snow do not include a...