A description of a software package for reconstructing the distribution of the reflection coefficient of the Earth’s surface, as well as procedures developed for a considerable reduction of the computation time, is presented. By an example of a test region in the western coast of Africa, a comparison has been performed for results obtained by the proposed algorithm, the algorithm of homogeneous correction, and the standard MOD09 NASA algorithm. The correlation coefficients of results for this test region are as follows: between the new algorithm and homogeneity correction algorithm, 0.999; between the new algorithm and the MOD09 algorithm, 0.984.
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K. T. Protasov, L. A. Busygin, and V. V. Belov, “The method of transform histograms of brightness; as well as wavelet-correction of satellite image atmospheric distortions,” Opt. Atmos. Okeana 23(2), 136–142 (2010).
E. F. Vermote and A. Vermeulen, http://modis.gsfc.nasa.gov/atbd/atbd_nod08.pdf
P. N. Reinersman and K. L. Carder, “Monte Carlo simulation of the atmospheric point-spread function with an application to correction for the adjacency effect,” Appl. Opt. 34(21), 4453–4471 (1995).
V. V. Belov and M. V. Tarasenkov, “On the accuracy and operation speed of RTM algorithms for atmospheric correction of satellite images in the visible and UVranges,” Atmos. Ocean. Opt. 27(1), 54–61 (2014).
J. Lenoble, “Modeling of the influence of snow reflectance on ultraviolet irradiance for cloudless sky,” Appl. Opt. 37, 2441–2447 (1998).
F. X. Kneizys, E. P. Shettle, G. P. Anderson, L. W. Abreu, J. H. Chetwynd, J. E. A. Selby, S. A. Clough, and W. O. Gallery, User guide to LOWTRAN-7. ARGL-TR-86-0177.ERP 2010 (Hansom AFB, Bedford, MA, 2010).
V. V. Belov and M. V. Tarasenkov, “Statistical modeling of the point spread function in the spherical atmosphere and a criterion for detecting image isoplanarity zones,” Atmos. Ocean. Opt. 23(6), 441–447 (2010).
V. V. Belov and M. V. Tarasenkov, “Statistical modeling of the intensity of light fluxes reflected by the Earth’s spherical surface,” Atmos. Ocean. Opt. 23(1), 14–20 (2010).
V. V. Belov, M. V. Tarasenkov, and K. P. Piskunov, “Parametrical model of solar haze intensity in the visible and UV ranges of the spectrum,” Opt. Atmos. Okeana 23(4), 294–297 (2010).
A. V. Kozhevnikova, M. V. Tarasenkov, and V. V. Belov, “Parallel computations for solving problems of the reconstruction of the reflection coefficient of the Earth’s surface by satellite data,” Atmos. Ocean. Opt. 26(4), 326–328 (2013).
Original Russian Text © M.V. Tarasenkov, V.V. Belov, 2014, published in Optika Atmosfery i Okeana.
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Tarasenkov, M.V., Belov, V.V. Software package for reconstructing reflective properties of the Earth’s surface in the visible and UV ranges. Atmos Ocean Opt 28, 89–94 (2015). https://doi.org/10.1134/S1024856015010133
- Monte Carlo method
- atmospheric correction
- radiative transfer equation