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1

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Satellite aerosols retrieval over land surfaces using the structure functions (1992)

Tanre, D. ; Kaufman, Y. J. ; Holben, B. N. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: Remote sensing of aerosol optical thickness from space is difficult over continental surfaces. There are two retrieval algorithms, one based on the use of dark targets and a second based on contrast reduction between selected pixels. Improvements in the contrast reduction method are reported. A procedure is developed for using the satellite image to evaluate whether conditions for applying the structure method are met. The theoretical background is discussed, and the usefulness of the structure functions is demonstrated. The method is applied to NOAA Advanced Very High Resolution Radiometer (AVHRR) imagery where simultaneous ground measurements are used for validation.

Keywords: GEOPHYSICS

Type: In: IGARSS '92; Proceedings of the 12th Annual International Geoscience and Remote Sensing Symposium, Houston, TX, May 26-29, 1992. Vol. 2 (A93-47551 20-43); p. 1474-1477.

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2

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Ozone and Aitken nuclei over equatorial Africa - Airborne observations during DECAFE 88 (1992)

Chapuis, A. ; Andreae, M. O. ; Kaufman, Y. J. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: Results of ozone and Aitken condensation nuclei measurements made over the rain forest in equatorial Africa during February 12-25, 1988 are presented. The results indicate the presence of a layer between 1 and 4 km altitude where these species are strongly enriched. Based on information derived from simultaneous measurements of other chemical and meteorological parameters, satellite imagery, and trajectory calculations, this enrichment is attributed to emissions from biomass burning in sub-Saharan Africa, from which ozone is formed by photochemical reactions.

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research (ISSN 0148-0227); 97; D6, A

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3

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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

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4

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The effect of earth's atmosphere on contrast reduction for a nonuniform surface albedo and 'two-halves' field (1980)

Kaufman, Y. J. ; Mekler, Y.

In: Other Sources

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Publication Date: 2011-08-17

Description: The paper presents a model for contrast reduction by atmospheric haze developed for the 'two-halves' field of the earth's surface and other geometries of the earth's surface albedo. The model is based on a simplified solution of the equation of radiative transfer in two dimensions, resulting in a method for calculation of the upward zenith intensity in the atmosphere as a function of the distance from the border between the two half planes, for an unabsorbing atmosphere. The adjacency effect between two infinitesimal areas of different albedos is calculated; the resultant simplified solution is used to develop expressions for the line-spread function of the atmosphere and the modulation transfer function. The line-spread function is used to calculate the point spread function, which can be used to compute the intensity above any surface with given spatial dependence of the reflectivity.

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research; 85; July 20

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5

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Contrast reduction by the atmosphere and retrieval of nonuniform surface reflectance (1982)

Mekler, Y. ; Kaufman, Y. J.

In: Other Sources

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Publication Date: 2011-08-18

Description: A radiative transfer model is developed which gives the upward radiance at nadir for any 1-D Lambertian surface reflectance. This model is used to depict the atmospheric effect on the transmittance of contrast for any 1-D surface reflectance. Here by contrast we mean a general variation of the radiation field across the image. With the aid of this model an inversion algorithm is developed for retrieval of true surface reflectance from high resolution satellite data (e.g., Landsat). This inversion technique can be a useful tool for extraction of surface reflectance from satellite data in the case of a surface reflectance variable in one dimension only (e.g., seashore or near borders of big fields). A sensitivity study of the inversion procedure on the knowledge of atmospheric parameters and sensor calibration was performed. It is shown that this inversion technique is stable even in the presence of errors in the sensor calibration and the atmospheric parameters. The method was applied to Landsat data in two wavelengths. The results show reasonable dependence of the derived surface reflectance on the distance from the seashore.

Keywords: GEOPHYSICS

Type: Applied Optics; 21; Jan. 15

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6

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Atmospheric Effects on Remote Sensing of the Earth's Surface (1984)

Fraser, R. E. ; Kaufman, Y.

In: CASI

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Publication Date: 2014-09-27

Description: The main causes and magnitude of the atmospheric effects on remote sensing of the Earth's surface are determined. Theoretical study as well as measurements are included. The knowledge gained from this study will be used to develop atmospheric correction algorithms and to test them with satellite data. In a theoretical investigation of the relative effects of the aerosol optical thickness, absorption, and size distribution on remote sensing, it was found that aerosol absorption has a significant effect on satellite measurements of surface reflectivity. The absorption effect is stronger for high than for low surface reflectances. The aerosol optical thickness is dominant for small surface reflectances. The accuracy of clustering algorithms depends on both parameters. The vegetation index, however, is affected by the optical thickness but only weakly affected by the absorption. A laboratory simulation of the atmospheric effect on the radiance of sunlight scattered from the Earth's surface-atmosphere system was performed. This experiment verified the existence of the adjacency effect (the effect of a bright field on the radiance detected above a dark field) and was used to test 3-D radiative transfer models. In a theoretical study it was found that atmospheric scattering resulting from the adjacency effect reduces the separability between surface classes.

Keywords: GEOPHYSICS

Type: Fundamental Remote Sensing Sci. Res. Program, Part 1; p 44

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7

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Dependence of the spectral surface irradiance on aerosol properties and surface reflectivity (1980)

Ungar, S. ; Kaufman, Y. ; Otterman, J. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-17

Description: A reduction in global surface irradiance occurs with increasing aerosol loadings when the aerosols are absorbing. For scattering aerosols, a reduction is pronounced for isotropic scattering (characteristic of small particles) but reduction is not as significant for scattering with a high anisotropy of a large forward peak (characteristic of large particles). This distinction between isotropic and anisotropic scattering becomes small or null over highly reflecting terrain; and for reflectivities higher than 0.5 and solar elevation angles close to the zenith, the global irradiance can be slightly higher for isotropic scattering than in the case of an anisotropy of a forward peak. Under such conditions, which can be encountered in reflective infrared bands over dense vegetation or over sandy deserts (close to noon, in low latitudes) the surface irradiance becomes nearly independent of the aerosol optical thickness.

Keywords: GEOPHYSICS

Type: Solar Energy; 24; 3, 19; 1980

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8

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Determination of surface albedos and aerosol extinction characteristics from satellite imagery (1982)

Joseph, J. H. ; Kaufman, Y. J.

In: Other Sources

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Publication Date: 2011-08-18

Description: A procedure is developed for calculating atmospheric extinction characteristics (optical thickness, scattering height, single scattering albedo) and surface albedo from radiometric images made at satellite altitudes. The procedure - a fast, computerized method - is suitable for the high-volume processing of satellite imagery data and thus can be used to map temporal and spatial distributions of aerosol parameters. Based on an analytical approximate solution to the equation of radiative transfer in a plane parallel atmosphere, the procedure is primarily applicable to the 0.4-micron to 0.8-micron wavelength range for solar zenith angles from 10 deg to 60 deg, surface albedos between 0.03 and about 0.5, and atmospheric optical thicknesses from 0.2 to 2. With a step-like change in the surface albedo (for example, a seashore or river bank or other similar change of terrain), both surface reflectivity and atmospheric optical thickness can be derived from radiance measurements. In this case, the resultant optical thickness is not based on a known surface reflectivity and is in essence independent of the radiometer calibration.

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research; 87; Feb. 20

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9

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Solution of the equation of radiative transfer for remote sensing over nonuniform surface reflectivity (1982)

Kaufman, Y. J.

In: Other Sources

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Publication Date: 2011-08-18

Description: An understanding of radiative transfer in the earth's atmosphere is a necessity for the remote sensing of surface reflectivity from satellites and aircraft. The range of the adjacency effect, which represents the effect of bright areas on the radiance above dark areas, is the main parameter that distinguishes atmospheric radiative transfer over a nonuniform surface from that over a uniform one. A radiative transfer model which expresses this range correctly is, therefore, critical for developing remote sensing methods for the case of an atmosphere over a nonuniform surface. The present investigation is concerned with the development of a new approximate solution of the radiative transfer (RT) equation. The solution is not limited to nonabsorbing atmospheres, but it will still be limited to nadir observations. The results compare favorably with Monte Carlo simulations.

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research; 87; May 20

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10

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Reflectivity of the atmosphere-inhomogeneous surfaces system Laboratory simulation (1984)

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

In: Other Sources

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Publication Date: 2011-08-19

Description: Theoretical two- and three-dimensional solutions of the radiative transfer equation have been applied to the earth-atmosphere system. Such solutions have not been verified experimentally. A laboratory experiment simulates such a system to test the theory. The atmosphere was simulated by latex spheres suspended in water and the ground by a nonuniform surface, half white and half black. A stable radiation source provided uniform illumination over the hydrosol. The upward radiance along a line orthogonal to the boundary of the two-halves field was recorded for different amounts of the hydrosol. The simulation is a well-defined radiative transfer experiment to test radiative transfer models involving nonuniform surfaces. Good agreement is obtained between the measured and theoretical results.

Keywords: GEOPHYSICS

Type: Journal of the Atmospheric Sciences (ISSN 0022-4928); 41; 2595-260

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