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Remote sensing of the earth from space: atmospheric correction [Libro electrónico] / autores: Kirill Y. Kondratyev, Vladimir V. Kozoderov, Oleg I. Smokty

Por: Kondratyev, Kirill Y [autor/a].
Kozoderov, Vladimir V [autor/a] | Smokty, Oleg I [autor/a].
Tipo de material: Libro
 en línea Libro en línea Editor: New York, New York, United States: Springer-Verlag, c1992Descripción: xi, 478 páginas : ilustraciones ; 25 centímetros.ISBN: 3540542442; 0387542442; 9783642767494 (Print); 9783642767470 (Online).Tema(s): Aerosols -- Mathematical models | Radiative transfer -- Mathematical models | Solar radiation -- Mathematical models | Remote sensingNota de acceso: Disponible para usuarios de ECOSUR con su clave de acceso Nota de bibliografía: Incluye bibliografía e índice: páginas 463-474 Número de sistema: 56166Contenidos:Mostrar Resumen:
Inglés

The monograph being proposed for the English-speaking research community is concentrated on the atmospheric correction of satellite images as a part of thematic interpretation procedures while processing remote sensing data. For linguistic reasons a large section of the community may have been unaware of the progress made in Russia in this field of science and technology. Meanwhile, Russia was the first country to launch the first artificial satellite in 1957 and to obtain from space for the first time spectra of the Earth's atmosphere in the 1960's. New applications of the radiation transfer theory for the atmosphere­ underlying surface system appeared first in Russia in the 1970's. Direct and in­ verse problems of the atmospheric optics were then formulated giving the scientific basis for studies of natural resources from space. Since that time new mathematical treatments for the atmospheric correction procedures have been widely developed in Russia, including both analytical and numerical tech­ niques to simulate spectral, angular, and spatial distributions of the outgoing radiation in visual and infrared regions. The authors of the book were at the beginning of the scientific approach. A wide range of mathematical im­ provements to elaborate polinomial approximations for dependencies between atmospheric radiation field and parameters of space surveying was due to the necessity to process satellite images in real time using special software of ex­ isted computer means for the studies.

Recurso en línea: http://link.springer.com/openurl?genre=book&isbn=978-3-642-76749-4
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Incluye bibliografía e índice: páginas 463-474

1. Introduction.. 2. Optical-physical models of atmospheric aerosol.. 3. The radiation-environment interaction.. 4. Theoretical models of the non-polarized optical radiation in the atmosphere-surface system.. 5. A one-dimensional scalar transfer function of the atmosphere.. 6. The effect of horizontal inhomogeneities of the underlying surface on the scalar transfer function of the atmospheric.. 7. Radiative correction of the space-derived images of the earth surface.. 8. Models of interaction of the shortwave and longwave components of the radiation budget with the atmosphere and the earth surface.. 9. Observations of the earth radiation budget from space.. 10. Conclusion.. Subject Index

Disponible para usuarios de ECOSUR con su clave de acceso

The monograph being proposed for the English-speaking research community is concentrated on the atmospheric correction of satellite images as a part of thematic interpretation procedures while processing remote sensing data. For linguistic reasons a large section of the community may have been unaware of the progress made in Russia in this field of science and technology. Meanwhile, Russia was the first country to launch the first artificial satellite in 1957 and to obtain from space for the first time spectra of the Earth's atmosphere in the 1960's. New applications of the radiation transfer theory for the atmosphere­ underlying surface system appeared first in Russia in the 1970's. Direct and in­ verse problems of the atmospheric optics were then formulated giving the scientific basis for studies of natural resources from space. Since that time new mathematical treatments for the atmospheric correction procedures have been widely developed in Russia, including both analytical and numerical tech­ niques to simulate spectral, angular, and spatial distributions of the outgoing radiation in visual and infrared regions. The authors of the book were at the beginning of the scientific approach. A wide range of mathematical im­ provements to elaborate polinomial approximations for dependencies between atmospheric radiation field and parameters of space surveying was due to the necessity to process satellite images in real time using special software of ex­ isted computer means for the studies. eng

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