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title of the reference :
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Atmospheric condition and its influence on reflectance of bare soil surfaces in Southern Tunisia.
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Publication Date:
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1992
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Author :
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Epema Gerrit F.
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Catalogue type :
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Livre
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Catalogue reference :
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(GBR) Int. J. Remote Sens. Atmospheric condition and its influence on reflectance of bare soil surfaces in Southern Tunisia. The variation in the influence of the atmosphere on ground reflectance appears to be small for a stable atmosphere at different haze conditions in the study area. For a comparison of field with simulated and actual satellite data the model of Verhoef was used, which requires as input the ratio of measured diffuse to total irradiation. Relative difference in planetary reflectance of Landsat TM predicted with an atmospheric model for a specific ground reflectance and the observed range of stable atmospheric conditions turned out to be small.
Télédétection multispectrale ; Pouvoir réflecteur ; Sol ; Correction ; Atmosphère ; Expérience ; Etalonnage ; Modèle ; Albedo ; Conditions atmosphériques ; Condition météorologique ; Correction atmosphérique ; Etude comparative ; LANDSAT ; Tunisie ; Tunisie Sud Epema Gerrit F. Géomorphologie, Pédologie
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Indexation decimale :
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Géomorphologie, Pédologie
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Keywords :
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Télédétection multispectrale ; Pouvoir réflecteur ; Sol ; Correction ; Atmosphère ; Expérience ; Etalonnage ; Modèle ; Albedo ; Conditions atmosphériques ; Condition météorologique ; Correction atmosphérique ; Etude comparative ; LANDSAT ; Tunisie ; Tunisie Sud
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Summary :
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The variation in the influence of the atmosphere on ground reflectance appears to be small for a stable atmosphere at different haze conditions in the study area. For a comparison of field with simulated and actual satellite data the model of Verhoef was used, which requires as input the ratio of measured diffuse to total irradiation. Relative difference in planetary reflectance of Landsat TM predicted with an atmospheric model for a specific ground reflectance and the observed range of stable atmospheric conditions turned out to be small.
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