| Satellite data processing: methods and techniques |
| S.A. Khvostikov, S.А. Bartalev
Using remote sensing data assimilation into wildfire model to evaluate fire front position | 9-18 |
| V.A. Golunov
Experimental study of the dielectric properties of dry snow with large particles at a frequency of 37.5 GHz | 19-27 |
| A.V. Yushmanova, S.V. Vazyulya
Validation of satellite algorithms for calculating the absorption coefficient of colored dissolved organic matter in the Barents Sea | 28-39 |
| V.V. Sterlyadkin, D.M. Ermakov, А.V. Kuzmin, E.V. Pashinov
Flood prediction on major rivers from radiometric microwave measurements from space. Is it possible? | 40-52 |
| О.V. Nikolaeva
Using NDSI index to distinguish clouds and non-snow surfaces in multispectral images | 53-62 |
| A.V. Skorokhodov, K.V. Kuryanovich
Using CloudSat CPR data to improve the efficiency of the neural network approach to estimating cloud base height in Aqua MODIS satellite images | 63-75 |
| A.V. Kashnitskii, M.A. Burtsev, A.A. Proshin
Technology to create cloud-free composites from Sentinel-2 satellite data | 76-85 |
| Developing information systems for remote monitoring: methods and technologies |
| A.V. Bazarov, R.S. Sychev, A.S. Bazarova, O.V. Bazarova
Mapping of forest fires in conjunction with anthropogenic objects and forest species in the vicinity of the Eastern Railway | 89-100 |
| A.K. Lysov, V.A. Pavlyushin
Phytosanitary design of agroecosystems and remote sensing | 101-109 |
| Remote sensing in geology and geophysics |
| A.A. Zlatopolsky, E.A. Shekman
Ordinal statistics of the valleys found by the digital terrain model: Scale factor and Horton’s equations | 113-122 |
| Remote sensing of vegetation and soils |
| V.A. Siliuk, H.S. Litvinovich, I.I. Bruchkouski, L.V. Katkovsky, M.Yu. Belyaev, E.E. Sarmin
Pícea ábies stress levels classification by spectral features of remote sensing data | 125-135 |
| E.G. Shvetsov
Study of the influence of fire radiative power of forest fires on forest disturbance degree in southern regions of Central Siberia using satellite data | 136-146 |
| A.A. Vypritskiy, S.S. Shinkarenko
Analysis of soil and climatic factors influence on the protective forest condition based on Sentinel-2 data | 147-163 |
| A.V. Ostroukhov
Assessing the extent of landscape fires in the Middle Amur Lowland using long-term satellite data time series | 164-175 |
| Y. Wang, E.A. Kurbanov, O.N. Vorobiev
Time series analyses of forest cover change according to elevation gradient in Gansu province of China | 176-189 |
| Remote sensing of water objects, ocean and ice cover |
| E.V. Zabolotskikh, V.N. Kudryavtsev, E.A. Balashova, S.M. Azarov
New approach to estimate sea ice edge from ASCAT data | 193-209 |
| N.N. Abayev, G.N. Sagatdinova, Yu.A. Maglinets, A.G. Terekhov
Assessment of Shardara Reservoir siltation during 1999–2021 using satellite data (Syrdarya River, Kazakhstan) | 210-221 |
| V.S. Travkin, T.V. Belonenko, A.V. Kochnev
Topographic waves in the Kuril region | 222-234 |
| V.R. Zhuk, I.E. Kozlov, A.A. Kubryakov, D.M. Solovyov, A.A. Osadchiev, N.B. Stepanova
Application of UAV measurements to assess the dynamics of the marginal ice zone in the Kara Sea | 235-245 |
| A.I. Ginzburg, A.G. Kostianoy, N.A. Sheremet, A.S. Izhitskiy, D.M. Soloviev
The drying dynamics of the Western Large Aral Sea from satellite data (2002–2021) | 246-263 |
| O.Yu. Lavrova, K.R. Nazirova, Ya.O. Alferyeva, P.D. Zhadanova, A.Ya. Strochkov
Comparison of plume parameters of the Sulak and Terek rivers based on satellite data and in-situ measurements | 264-283 |
| Remote sensing of atmosphere and climate |
| M.K. Pichugin, I.A. Gurvich, A.V. Baranyuk
Analysis of extreme winds in intense extratropical cyclones over the North Pacific based on satellite observations from SMAP | 287-299 |
| Remote sensing of ionosphere |
| M.A. Chernigovskaya, B.G. Shpynev, D.S. Khabituev
Response of the ionosphere – thermosphere system over the mid-latitude region of Eurasia to geomagnetic storms in March 2012 | 303-315 |
| In brief |
| S.S. Shinkarenko, S.А. Bartalev, A.N. Berdengalieva, V.V. Doroshenko
Satellite monitoring of desertification processes in the south of European Russia in 2019-2022 | 319-327 |
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| Imprint page
| 328 |