| Satellite data processing: methods and techniques |
| V.G. Astafurov, T.V. Evsyutkin, K.V. Kuryanovich, A.V. Skorokhodov
Classification of the main cloud type textures from MODIS data using fuzzy systems | 9-18 |
| A.I. Suslov, N.S. Erokhin, L.A. Mikhailovskaya, S.N. Artekha, A.A. Gusev
Modeling the passage of large-scale internal gravitational waves from the troposphere to the ionosphere | 19-25 |
| D.Yu. Starobinets, A.D. Khomonenko, N.A. Gavrilova
Automatic selection of image compression parameters with losses based on invariant moments for Earth remote sensing purposes | 26-36 |
| A.A. Zlatopolsky
Multiscale Earth surface texture orientation analysis. Special scales. Part three. Valley hierarchy | 37-46 |
| G.A. Kochergin, M.A. Kupriyanov, Yu.M. Polishchuk
The use of Landsat 8 space images for rapid assessment of total flaring volumes of associated gas in the oil-producing territory | 47-55 |
| P.V. Chernyshov
Method of shearing current profile reconstruction and its verification for synthetic X-Band radar data | 56-66 |
| Instruments and systems for satellite remote sensing |
| V.E. Turuk, V.S. Verba, M.V. Golovanova, P.E. Golubtsov, M.V. Evsikov, L.B. Neronskiy, S.E. Zaitsev, E.F. Tolstov
Strizh SAR for small Condor-E satellites | 69-83 |
| Developing information systems for remote monitoring: methods and technologies |
| R.A. Aleshko, A.A. Alekseeva, K.V. Shoshina, Petrovich Bogdanov, A.T. Guriev
Development of the methodology to update the information on a forest area using satellite imagery and small UAVs | 87-99 |
| Remote sensing in geology and geophysics |
| P.E. Shimkin, M.I. Babokin, A.I. Baskakov
A study of accuracy of single-pass interferometric synthetic aperture radar with front-side view for measuring the Earth’s surface | 103-112 |
| I.I. Dobrynin, F.V. Pesyak, A.I. Savin, N.N. Sevastiyanov
Measurement of Earth surface displacements by SAR interferometry using corner reflectors | 113-121 |
| Developing information systems for remote monitoring: methods and technologies |
| E.A. Kiseleva, V.O. Mikhailov, E.I. Smolyaninova, P.N. Dmitriev
On monitoring surface displacements of natural terrains using SAR interferometry | 122-132 |
| Remote sensing of vegetation and soils |
| N.V. Rodionova
Sentinel 1 data correlation with ground measurements of soil temperature | 135-148 |
| I.M. Mikhailenko, V.N. Timoshin
Management of sowing time according to Earth remote sensing data | 149-160 |
| M.A. Ivanov, A.V. Prishchepov, V.N. Golosov, R.R. Zalyaliev, K.V. Efimov, A.A. Kondrat’eva, A.D. Kinyashova, Yu.K. Ionova
Method of croplands dynamics mapping in river basins of the European part of Russia for the period of 1985–2015 | 161-171 |
| E.A. Stytsenko
Evaluation of the possibilities to classify agricultural lands using multi-seasonal satellite data processing | 172-183 |
| Remote sensing of water objects, ocean and ice cover |
| M.A. Panfilova, V.Yu. Karaev
Using spaceborne precipitation radar data to investigate variations of slope variance of large-scale waves in a slick | 187-194 |
| E.V. Zabolotskikh, A.G. Myasoedov
Spatial and temporal variability of the Barents Sea ice retrieved from satellite passive microwave radiometer data | 195-208 |
| T.I. Kleshcheva, M.S. Permyakov, P.A. Salyuk, I.A. Golik
Spatial spectra of sea surface temperature and chlorophyll “a” concentration fields in the marginal seas of the northwest Pacific Ocean | 209-220 |
| Remote sensing of atmosphere and climate |
| T.B. Titkova, L.M. Kitaev, V.V. Vinogradova
Short-period variability in snow cover duration in the north of Eurasia in modern climate conditions from MODIS data | 223-238 |
| A.M. Trifonova-Yakovleva, S.A. Gromov, S.S. Gromov, T.V. Khodzher, V.L. Potemkin, V.A. Obolkin
On the possibility of using the GOME2 high resolution ozone profiles for assessment of near-surface ozone concentrations | 239-247 |
| L.N. Yurganov, I. Leifer, S. Vadakkepuliyambatta
Evidences of accelerating the increase in the concentration of methane in the atmosphere after 2014: satellite data for the Arctic | 248-258 |
| I.V. Mingalev, E.A. Fedotova, К.G. Orlov
The effect of optically thick cloud layers on heating of the atmosphere self emission at mid-latitudes | 259-267 |
| V.V. Sterlyadkin, E.V. Pashinov, А.V. Kuzmin, E.A. Sharkov
Influence of the underlying surface on the accuracy of satellite differential radiometric measurements of water vapor profile in the lower troposphere | 268-277 |
| O.I. Yakovlev, A.P. Shlichkov, O.G. Khutorova, A.A. Pavelyev, A.G. Pavelyev, S.S. Matyugov
Analysis and verification of vertical profile of atmospheric temperature for Kazan area according to radio occultation in communication line satellite-to-satellite | 278-284 |
| A.V. Vasilyev, I.N. Melnikova, S.S. Novikov
Influence of atmospheric optical parameters on the characteristics of solar radiation | 285-299 |
| E.V. Volkova
Detection and assessment of cloud cover and precipitation parameters using data from MSU-MR radiometer of the polar-orbiting Meteor-M No. 2 for the European territory of Russia | 300-320 |
| D.S. Khabituev, B.G. Shpynev, A.V. Tatarnikov, S.E. Scheglova
The influence of Lunar-Solar gravity tide on the dynamics of atmosphere, ionosphere and ocean | 321-339 |
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Imprint page | 340 |