Vol. 3, issue 11, article # 2
Copy the reference to clipboard
Abstract:
The atmospheric correction of remotely sensed data is defined as a process of the current atmospheric optical parameters restoration with consequential inverting of optical transmittance operator, thus turning the underlying surface reflectance into the upward radiance. The ocean and terrain images' atmospheric correction methods are proposed to be classified on the basis of numerical methods as well as angular, spectral, variational etc. The general description of every class is given. The best worked-out methods are observed separately. The atmospheric optical qualities para- metirization problem is discussed. In conclusion the general outlines of atmospheric correction algorithm are presented.
References:
1. B.V. Shturm, Remote Sensing in Meteorology, Oceanology, and Hydrology [Russian translation] (Mir, Moscow, 1984).
2. I.S. Robinson; Phil. Trans. R. Soc. London, Ser. A 309, 415–432 (1983).
3. F.J. Tanis and S.C. Jain, in: Proceedings of the 17th International Symposium on Remote Sensing of the Environment (Ann Arbor, Michigan, 1983), pp. 923–935.
4. H.R. Gordon and A.Y. Morel, Remote Assessment of Ocean Colour for Interpretation of Satellite Visible Imagery, A Review (Springer, New York, 1983).
5. V.G. Zolotukhin, I.V. Mishin, D.A. Usikov, et al., Issled. Zemli iz Kosmosa, No. 4, 14–22 (1984).
6. V.E. Zuev and M.V. Kabanov, Optics of Atmospheric Aerosol (Gidrometeolzdat, Leningrad, 1987).
7. T.A. Germogenova, Dokl. Akad. Nauk SSSR 285, No. 5, 1091–1096 (1985).
8. G.M. Krekov, V.M. Orlov, V.V. Belov et al., Imitational Modeling of Problems in Optical Remote Sensing (Nauka, Novosibirsk, 1988).
9. V.V. Sobolev, Light Scattering in Planetary Atmospheres (Nauka, Moscow, 1972), 336 pp.
10. M.S. Malkevich and I.V. Mishin, Issled. Zemli iz Kosmosa, No. 3, 105–112 (1983).
11. V.G. Zolotukhin, D.A. Usikov, and V.A. Gruchin, Issled. Zemli iz Kosmosa, No. 3, 58–68 (1980).
12. A.S. Barykin, V.V. Kozodërov, and V.P. Popov, Issled. Zemli iz Kosmosa, No. 4, 78–85 (1985).
13. V.S. Antyufeev, U.T. Kerimli, О.I. Kudinov, et al., Atm. Opt. 2, No. 5, 487–491 (1989).
14. M.V. Maslennikov and T.A. Suchkevitch, eds., Numerical Solutions of Problems in Atmospheric Optics [in Russian], M.V. Keldysh Institute of Applied Mathematics of the Academy of Sciences of the USSR, Moscow (1984), 234 pp.
15. T.Z. Dzhetybaev, I.V. Mishin, and T.Z. Muldashev, Atm. Opt. 2, No. 11, 1135 (1989).
16. A.A. Ioltukhovskii, T.A. Suchkevlch, and S.A. Strelkov, Test Models for Numerical Solution of the Transfer Equation, Reprint No. 150, M.V. Keldysh Institute of Applied Mathematics of the Academy of Sciences of the USSR, Moscow (1988), 25 pp.
17. I.V. Mishin, Opt. Atm. 1, No. 12, 94–101 (1988).
18. D.J. Diner and J.V. Martonchik, Appl. Opt. 24, No. 21, 3503–3511 (1985).
19. T.Y. Lee and Y.J. Kaufman, IEEE Trans. Geosci. Remote Sens. 24, No. 5, 699–707 (1986).
20. H.R. Gordon, Appl. Opt. 17, No. 10, 1631–1636 (1978).
21. P.Y. Deschamps, M. Herman, and D. Tanre, Appl. Opt. 22, No. 23, 3751–3758 (1983).
22. E.O. Dzhetybaev and B.A. Kargin, in: Current Problems in Applied Mathematics and Numerical Simulation (Nauka, Novosibirsk, 1982), pp. 83–91.
23. A.A. Ioltukhovskii and T.A. Sushkevich, Numerical Method for Solving the Transfer Equation for the System “Atmosphere-Ocean," Preprint No. 9, M.V. Keldysh Institute of Applied Mathematics of the Academy of Sciences of the USSR, Moscow (1986), 28 pp.
24. V.E. Zuev and G.M. Krekov, Optical Models of the Atmosphere (Gidrometeoizdat, Leningrad, 1986).
25. E. Mc Cartney, Atmospheric Optics [Russian translation] (Mir, Moscow, 1979), 421 pp.
26. H. Quenzel and M. Kaestner, Appl. Opt. 19, No. 8, 1338–1344 (1980).
27. R. Guzzi, R. Rizzi, and G. Zibordi, Appl. Opt. 26, No. 15, 3043–3051 (1987).
28. L. Elterman, Report AFCRL-68-0153 Environm. Res. Papers, Bedford, 1968, 57 pp.
29. L. Elterman, Appl. Opt. 3, No. 6, 745–749 (1964).
30. G.M. Krekov and R.F. Rakhimov, Optical-Sensing Model of Continental Aerosol (Nauka, Novosibirsk, 1982), 198 pp.
31. V.I. Khalturin, in: Remote Sensing of the Ocean, Sevastopol’ (1982), 198 pp.
32. A.P. Vasil’kov, O.L. Ershov, and A.I. Sud'bin, Issled. Zemli iz Kosmosa, No. 1, 63–70 (1986).
33. H.R. Gordon and D.J. Castano, Appl. Opt. 26, No. 11, 2111–2122 (1987).
34. Y.J. Kaufman and J.H. Joseph, J. Geophys. Res. 87, No. C2, 1287–1299 (1982).
35. A.P. Vasil’kov, O.L. Ershov, A.I. Sud’bin, et al., Atm. Opt. 2, No. 6, 527 (1989).
36. R.S. Fraser and Y.J. Kaufman, IEEE Trans. Geosci. Remote Sens. 23, No. 5, 625–633 (1985).
37. M.E. Li and S.V. Parshikov, in: Atmospheric Optics [in Russian], State Optical Institute, Leningrad (1984), pp. 295–296.
38. A.K. Kolesov and O.I. Smoktiĭ, Astron. Zh. 48, No. 8, 1013–1022 (1971).
39. G.W. Kattawar, JQSRT 15, No. 9, 839–849 (1975).
40. A.V. Sandomirskiĭ and G.I. Trifonova, Izv. Akad. Nauk SSSR, Ser. FAO 8, No. 6, 616–625 (1972).
41. V.V. Badaev, E.M. Kozlov, and V.N. Chernyshov, Izv. Akad. Nauk SSSR, Ser. FAO 12, No. 9, 547–550 (1976).
42. V.V. Kozoderov, Issled. Zemli iz Kosmosa, No. 2, 65–75 (1983).
43. V.A. Golovko, Proceedings of the State Scientific-Research Center on Investigation of Natural Resources, No. 30, 112–124 (1988).
44. T.Z. Muldashev, U.M. Sultangazin, Zh. Vychisl. Mat. Mat. Fiz. 26, No. 6, 882–893.
45. G. Zibordi and G. Maraccy, Int. J. Remote Sens. 9, No. 12, 1881–1894 (1988).
46. Y.J. Kaufman, IEEE Trans. Geocsl. Remote Sens. 26, No. 4, 441–450 (1988).
47. G.I. Marchuk, Kosmich. Issled. 2, No. 3, 462–477 (1964).
48. M. Viollier, D. Tanre, and P.Y. Deschamps, Bound.-Layer Meteorol. 18, No. 3, 247–267 (1980).
49. V.V. Badaev and M.S. Malkevich, Izv. Akad. Nauk SSSR, Ser. FAO 14, No. 10, 1022–1030 (1978).
50. M.S. Malkevich, L.G. Istomina, and Kh. Khovis, Izv. Akad. Nauk SSSR, Ser. FAO 13, No. 2, 153–163 (1977).
51. G.Sh. Livshits, V.I. Syaehinov, and E.Kh. Tem, Izv. Akad. Nauk SSSR, Ser. FAO 9, No. 3, 311–313 (1973).
52. E.V. Bulychev and I.V. Mishin, Izv. Akad. Nauk SSSR, Ser. FAO 22, No. 12, 1322–1323 (1986).
53. E.V. Bulychev and I.V. Mishin, in: Atmospheric Radiation and Actinometry, Tomsk Affiliate of the Siberian Branch of the Academy of Sciences of the USSR, Tomsk, 1988, pp. 26–31.
54. P. Swltzen, W.S. Kowalik, and R.J.P. Lyon. Photogr. Eng. Remote Sens. 46, No. 10, 1470–1476 (1981).
55. V.V. Asmus, Yu.G. Spiridonov, and A.P. Tishchenko, Issled. Zemli iz Kosmosa No. 4, 59–68 (1980).
56. H.R. Gordon, D.K. Clark, J.L. Mueller, et al., Science 20, No. 4465, 63–66 (1980).
57. N.J. McCormick and J.A.R. Veeder, J. Math. Phys. 19, No. 5, 994–998 (1978).
58. A.Ya. Kazakov, Bulletin of Leningrad State University, No. 10, 88–94 (1982).
59. L.A. Viera Dias, J.R. Dos Santos, and A.R. Formaggio, Mach. Proc. Remote Sens. Data Symp., 41–45 (1983).
60. V.A. Golovko, in: Remote Sensing of the Earth From the Satellite ”Meteor-Priroda" (Gidrometeoizdat, Leningrad, 1985), pp. 120–127.
61. E.V. Bulychev and I.V. Mishin, Izv. Vyssh. Uchebn. Zaved. SSSR, Ser. Geodeziya i Aerofotos’emka, No. 4, 68–78 (1989).
62. R.C. Smith and W.H. Wilson, in: Oceanology from Space (Plenum Press, New York, 1981), pp. 281–294.
63. K.S. Shifrin, The Physical Optics of Ocean Water, American Institute of Physics, New York (1988), 285 pp.
64. S. Tassan, in: Proceedings of the 15th International Symposium on Remote Sensing of Environment, (Ann Arbor, Michigan, 1981), pp. 577–586.
65. H.R. Gordon and D.K. Clark, Appl. Opt. 20, No. 24, 4175–4180 (1981).
66. R.G. Smith and W.H. Wilson, in: Symposium on Oceanology from Space, Venice, Italy, 1980, pp. 26—30.
67. V.I. Khalturin, in: Proceedings of the 3th All-Union Conference on Atmospheric Optics and Actinometry, 1983, Vol. 2, pp. 90–92.
68. V.I. Khalturin. V.A. Urdenko, and E.I. Afonin, Optics of the Sea and Atmosphere, State Optical Institute, Leningrad (1984), pp. 252–251.
69. V.V. Badaev and E.M. Kozlov, Izv. Akad. Nauk SSSR, Ser. FAO 16, No. 5, 542–545 (1980).
70. M.S. Malkevich and V.V. Badaev, Issled. Zemli iz Kosmosa, No. 4. 45–53 (1981).
71. V.V. Badaev, M.S. Malkevich, B. Pizik, et al., Issled. Zemli iz Kosmosa, No. 5, 18–29 (1985).
72. M.S. Malkevich and G. Tsimmerman, Issled. Zemli iz Kosmosa, No. 2, 3–11 (1989).
73. G. Tsimmerman, V.V. Badaev, M.S. Malkevich, et al., Acta Astronautlca 12, No. 7/8, 475–483 (1985).
74. K.Ya. Kondrat’ev, . V.V. Kozodërov, and P.P. Fedchenko, Aerospace Investigation of Soil and Vegetation (Gidrometeolzdat, Leningrad, 1986), 231 pp.
75. I.V. Mishin and T.A. Sushkevlch, Issled. Zemli iz Kosmosa, No. 4, 69–80 (1980).
76. Y. Mekler and Y.J. Kaufman, J. Geoph. Res. 85, 4067–4079 (1980).
77. I.G. Zhurkin, Yu.L. Biryukov, and A.M. Semenov, Izv. Vyssh. Uchebn. Zaved., Ser. Geodeziya i Aerofotos’emka, No. 3, 75–79 (1985).
78. A.A. Ioltukhovskii, On the Formulation and Solution of the Inverse Problem in Atmospheric Optics, M.V. Keldysh Institute of Applied Mathematics of the Academy of Sciences of the USSR, Preprint No. 84, Moscow, 1988, 23 pp.
79. Geodesy, Aerial Photography, and Cartography. Experience from Abroad. Ser. Obtaining, Processing and Using Information from Outer Space, Nos. 1–4 (1988).