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Field Experiment for Measurement of the Radiative Characteristics of a Hazy Atmosphere (1986)

Kaufman, Y. J. ; Brakke, T. W. ; Eloranta, E.

American Meteorological Society

In: Journal of the Atmospheric Sciences. 1986; 43(11): 1135-1151. Published 1986 Jun 01. doi: 10.1175/1520-0469(1986)043〈1135:fefmot〉2.0.co;2.

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Publication Date: 1986-06-01

Print ISSN: 0022-4928

Electronic ISSN: 1520-0469

Topics: Geography , Geosciences , Physics

Published by American Meteorological Society

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Field experiment for measurement of the radiative characteristics of a hazy atmosphere (1986)

Brakke, T. W. ; Kaufman, Y. J. ; Eloranta, E.

In: Other Sources

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Publication Date: 2011-08-19

Description: Theoretical two-dimensional and three-dimensional solutions to the radiative-transfer equation have been applied to the earth-atmosphere system. A field experiment was conducted to test this theory. In the experiment the upward radiance was measured above and below a haze layer during simultaneous measurements of the haze characteristics. The measurements were conducted at a narrow near-IR channel (773 + or - 22 nm) which represents the visible and near-IR spectral region. The aerosol vertical optical thickness at eight wavelengths, as well as the vertical and horizontal profiles of the scattering coefficient, the temperature, and dew point were measured at several locations. These measurements quantified the vertical and spatial structure of the atmospheric haze and the atmospheric radiation. The result was a well-defined radiative-transfer experiment. The experimental data set is used to quantify the haze effect on upward radiance, including the adjacency effect (the effect of a bright area on the upward radiance measured above a dark adjacent area), and to test radiative-transfer models for a plane-parallel atmosphere above a nonuniform surface. A comparison is given between the theoretical prediction of upward radiance above the haze and the measurement. Agreement between theory and the experiment is discussed.

Keywords: GEOPHYSICS

Type: Journal of the Atmospheric Sciences (ISSN 0022-4928); 43; 1135-115

Format: text

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3

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Non-Lambertian effects on remote sensing of surface reflectance and vegetation index (1986)

Lee, T. Y. ; Kaufman, Y. J.

In: Other Sources

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Publication Date: 2011-08-19

Description: This paper discusses the effects of non-Lambertian reflection from a homogeneous surface on remote sensing of the surface reflectance and vegetation index from a satellite. Remote measurement of the surface characteristics is perturbed by atmospheric scattering of sun light. This scattering tends to smooth the angular dependence of non-Lambertian surface reflectances, an effect that is not present in the case of Lambertian surfaces. This effect is calculated to test the validity of a Lambertian assumption used in remote sensing. For the three types of vegetations considered in this study, the assumption of Lambertian surface can be used satisfactorily in the derivation of surface reflectance from remotely measured radiance for a view angle outside the backscattering region. Within the backscattering region, however, the use of the assumption can result in a considerable error in the derived surface reflectance. Accuracy also deteriorates with increasing solar zenith angle. The angular distribution of the surface reflectance derived from remote measurements is smoother than that at the surface. The effect of surface non-Lambertianity on remote sensing of vegetation index is very weak. Since the effect is similiar in the visible and near infrared part of the solar spectrum for the vegetations treated in this study, it is canceled in deriving the vegetation index. The effect of the diffuse skylight on surface reflectance measurements at ground level is also discussed.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: IEEE Transactions on Geoscience and Remote Sensing (ISSN 0196-2892); GE-24; 699-708

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4

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The relative importance of aerosol scattering and absorption in remote sensing (1985)

Kaufman, Y. J. ; Fraser, R. S.

In: Other Sources

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Publication Date: 2011-08-19

Description: Previous attempts to explain the effect of aerosols on satellite measurements of surface properties for the visible and near-infrared spectrum have emphasized the amount of aerosols without consideration of their absorption properties. In order to estimate the importance of absorption, the radiances of the sunlight scattered from models of the earth-atmosphere system are computed as functions of the aerosol optical thickness and absorption. The absorption effect is small where the surface reflectance is weak, but is important for strong reflectance. These effects on classification of surface features, measuring vegetation index, and measuring surface reflectance are presented.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: IEEE Transactions on Geoscience and Remote Sensing (ISSN 0196-2892); GE-23; 625-633

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Atmospheric Effect on Remote Sensing of the Earth's Surface (1985)

Fraser, R. S. ; Kaufman, Y. J.

In: CASI

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Publication Date: 2016-06-07

Description: Radiative transfer theory (RT) for an atmosphere with a nonuniform surface is the basis for understanding and correcting for the atmospheric effect on remote sensing of surface properties. In the present work the theory is generalized and tested successfully against laboratory and field measurements. There is still a need to generalize the RT approximation for off-nadir directions and to take into account anisotropic reflectance at the surface. The reflectance at the surface. The adjacency effect results in a significant modification of spectral signatures of the surface, and therefore results in modification of classifications, of separability of field classes, and of spatial resolution. For example, the 30 m resolution of the Thematic Mapper is reduced to 100 m by a hazy atmosphere. The adjacency effect depends on several optical parameters of aerosols: optical thickness, depth of aerosol layer, scattering phase function, and absorption. Remote sensing in general depends on these parameter, not just adjacency effects, but they are not known well enough for making accurate atmospheric corrections. It is important to establish methods for estimating these parameters in order to develop correction methods for atmospheric effects. Such estimations can be based on climatological data, which are not available yet, correlations between the optical parameters and meteorological data, and the same satellite measurements of radiances that are used for estimating surface properties. Knowledge about the atmospheric parameters important for remote sensing is being enlarged with current measurements of them.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: Fundamental Remote Sensing Sci. Res. Program; p 100-106

Format: application/pdf

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Visibility of Halley's nucleus from the Giotto spacecraft (1985)

Mekler, Y. ; Kaufman, Y. J.

In: Other Sources

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Publication Date: 2011-08-19

Description: An effort is made to estimate the visibility of the patterns on the nucleus of Comet Halley from the Giotto spacecraft through the comet's dusty coma. The visibility computation is based on the theory of contrast reduction by a scattering and absorbing medium (a planetary atmosphere). It is shown that some details may be seen on the surface of the cometary nucleus even for an optical thickness as high as 2. It is noted that the surprisingly large apparent contrast for such large optical thicknesses can be explained by the strong forward scattering by the dust.

Keywords: ASTROPHYSICS

Type: Icarus (ISSN 0019-1035); 64; 20-26

Format: text

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7

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The atmospheric effect on the separability of field classes measured from satellites (1985)

Kaufman, Y. J.

In: Other Sources

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Publication Date: 2011-08-19

Description: The atmospheric effect on the upward radiance emerging from the atmosphere above a nonuniform surface results in a reduction of the separability between the surface classes by broadening the radiance probability distribution of each class, while narrowing the total radiance range. The atmospheric modulation transfer function (MTF) is used in Fourier transform analyses to simulate the atmospheric effect on the imagery of a nonuniform surface and to demonstrate the atmospheric effect on separability of field classes.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: Remote Sensing of Environment (ISSN 0034-4257); 18; 21-34

Format: text

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8

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Calibration of satellite sensors after launch (1986)

Kaufman, Y. J. ; Fraser, R. S.

In: Other Sources

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Publication Date: 2019-07-12

Description: A simple and accurate method for the postflight calibration of satellite Visible Infrared Spin-Scan Radiometers (VISSR) is presented, and the results of inflight testing are reported. The calibration source for the VISSR with its effective wavelength of 610 nm is the radiance of sunlight, measured in calibrated reflectance units, scattered by the atmospheric gas above ocean which is far from land. Only the lowest 20 percent of the full-scale VISSR response is calibrated. VISSR testing aboard two geostationary operational evironmental satellites between 1980 and 1983 showed significant calibration coefficient variations of only + or - 12 percent and + or - 2 percent. Good agreement was found between values of aerosol optical thickness measured by VISSR and those measured from the ground.

Keywords: SPACECRAFT INSTRUMENTATION

Type: Applied Optics (ISSN 0003-6935); 25; 1177-118

Format: text

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