Content
Number of images - 6
Tables and charts - 2
On Variants of the Main Atmospheric Correction Formula. L&E 28 (4) 2020

Light & Engineering 28 (4)

Volume 28
Date of publication 08/15/2020
Pages 39–46

PDF

On Variants of the Main Atmospheric Correction Formula. L&E 28 (4) 2020
Articles authors:
Olga V. Nikolaeva

Olga V. Nikolaeva, graduated from the Computational Mathematics Department of the M.V. Lomonosov Moscow State University majoring in Applied Mathematics. At present, she is Senior Researcher of the Applied Mathematics Institute of the Russian Academy of Sciences. Her research interests are the direct and inverse problems for the radiation transfer equation

Abstract:
The article studies the accuracy of the main formula of atmospheric correction allowing us to determine albedo of a underlying (earth) surface based on radiance factor of solar light reflected by the system of atmosphere and underlying surface. The problem of atmospheric correction is considered in three-dimensional geometry with spatial non-uniformity of the underlying surface taken into account. It is demonstrated that the accuracy of albedo recovery depends on the used variant of the main formula.
References:
1. Kaufman Y.J., Tanre D, Gordon H.R., Nakajima T., Lenoble J., Frouin R., Grassl H., Herman B.M., King M.D., Teillet P.M. Passive remote sensing of tropospheric aerosol and atmospheric correction for the aerosol effect // Journal of Geophysical Research, 1997, V. 102, N. D14, pp. 16,815–16,830.
2. Ju J., Roy D.P., Vermote E., Masek J, Kovalskyy V. Continental-scale validation of MODIS-based and LEDAPS Landsat ETM+ atmospheric correction methods // Remote Sensing of Environment, 2012, V. 122, pp. 175–184.
3. ENVI. Atmospheric Correction Module: QUAC and FLAASH User’s Guide. 2009. 44 p.
4. Tarasenkov M.V., Belov V.V. A Set of Programmes of Recovery of Reflective Properties of Earth Surface in Visible and UV Ranges [Kompleks programm vosstanovleniya otrazhatelnykh svoistv zemnoy poverkhnosti v vidimom i UF-diapazonakh] // Optika atmosphery i okeana, 2014, Vol. 27, Issue 7, pp. 622–626.
5. Lenot X, Achard V, Poutier L. SIERRA: A new approach to atmospheric and topographic corrections for hyperspectral imagery // Remote Sensing of Environment, 2009, V. 13, pp. 1664–1677
6. Nikolaeva O.V . New Algorithm of Surface Albedo Recovery Based on Sattellite Sensing Data [Novyi algoritm vosstanovleniya albedo poverkhnosti po dannym sputnikovogo zondirovaniya] // Optika atmosphery i okeana, 2016, Vol. 29, Issue 3, pp. 204–209.
7. Nikolaeva O.V . Studying the Accuracy of the Algorithm of Albedo Recovery of a Surface with High Spatial Resolution Using a Fragment of a Satellite Image [Issledovaniye tochnosti algoritma vosstanovleniya albedo poverkhnosti s vysokim prostranstvennym razresheniyem po fragmentu sputnikovogo izobrazheniya] // Optika atmosphery i okeana, 2016, Vol. 29, Issue 7, pp. 541–547.
8. GOST 4401–81: “Standard Atmosphere. Parameters”, 2004, 165 p.
9. Katsev I.L., Zaege E.P., Prikhach A.S. Microphisical Model of Aerosol Atmosphere of Belarus and Adjacent Regions [Mikrofizicheskaya model aerozolnoy atmosfery Belarusi i sopredelnykh regionov] // Optika atmosfery i okeana, 2016, Vol. 29, pp. 572–578.
10. Mishchenko M.I., Dlugach J.M., Yanovitskij E.G., Zakharova N.T. Bidirectional reflectance of flat optically thick particulate layers: an efficient radiative transfer solution and applications to snow and soil surfaces // Journal of Quantitative Spectroscopy & Radiative Transfer, 1999, V. 64, pp. 409–432.
11. Hansen J.E., Travis L.D. Light Scattering in Planetary Atmospheres // Space Science Reviews, 1974, V. 16, pp. 527–610.
12. Baula G.G., Brychikhin M.N., Istomina M.N., Krotkov A. Yu., Szhonov E. Yu., Rizvanov A.A., Tretyakov V.N. Formation of the Data Base of Hyperspectral Optical Characteristics of Agricultural Crops in Ultraviolet, Visible and Near-infrared Regions of Spectre [Formirovaniye bazy dannykh giperspektralnykh opticheskikh kharakteristik selskokhozyaystvennykh kultur v ultrfioletovoy, vidimoy i blizhney infrakrasnoy oblastyakh spektra] // Kosmonavtika i raketostroeniye, 2013, Vol. 4, pp. 178–184.
13. Nikolaeva O.V., Bass L.P., Kuznetsov V.S. Raduga-6 – Software for Solution of the Stationary and Non-stationary Radiation Transfer Equations in 1D, 2D and 3D Areas [Raduga-6 – programma resheniya statsionarnogo i nestatsionarnogo uravneniy perenosa izlucheniya v 1D, 2D, 3D oblastyakh]. Abstract Book of the International Symposium “Atmospheric Radiation and Dynamics”, Saint Petersburg, June 21–24, 2011, pp. 81–82.
Keywords
Recommended articles
https://ahoj.stikesalifah.ac.id/pages/slot-depo-5000/http://ahoj.stikesalifah.ac.id/dana-resmi/https://dedikasi.lp4mstikeskhg.org/slot-dana-depo10k/https://mata.pulaumorotaikab.go.id/public/images/file/1711212514temp.htmlhttps://mata.pulaumorotaikab.go.id/public/images/avatar/1710788275avatar.htmlhttps://alwasilahlilhasanah.ac.id/starlight-princess-1000/https://ahoj.stikesalifah.ac.id/demo/https://www.sa-ijas.org/sweet-bonanza/https://www.remap.ugto.mx/pages/slot-luar-negeri-winrate-tertinggi/https://seer.anafe.org.br/pages/akun-pro-kamboja/https://sipusli.mojokertokab.go.id/upload/~/akun-pro-kamboja/https://bumdesjanjimanahansil.padanglawasutarakab.go.id/products/mpo/https://siduta.dukcapil.baritoselatankab.go.id/assets/idn/https://perizinan.jambikota.go.id/frontend/web/situs-gacor/https://revistas.uia.ac.cr/pages/products/sigmaslot/https://disbudpar.padanglawasutarakab.go.id/assets/https://bumdesjanjimanahansil.padanglawasutarakab.go.id/pt2/https://dedikasi.lp4mstikeskhg.org/docs/https://dedikasi.lp4mstikeskhg.org/slot-deposit-pulsa-tanpa-potongan/https://setwan.katingankab.go.id/asset/slot-dana/https://perizinan.jambikota.go.id/frontend/web/situs-pulsa/https://unsimar.ac.id/akun-pro-kamboja/https://catalog.ndp.utah.edu/uploads/user/2024-03-27-205738.327672mahjong2ways.html/https://mbkm.umkendari.ac.id/images/sgacor/https://beasiswa.umkendari.ac.id/application/https://fkip.umkendari.ac.id/assets/pulsa/https://bumdesjanjimanahansil.padanglawasutarakab.go.id/Assets/https://revistas.uroosevelt.edu.pe/public/https://civitic.indoamerica.edu.ec/gates-of-olympus/