| Satellite data processing: methods and techniques |
| A.A. Lamaka
Methodology of data processing for individual trees monitoring based on UAV multispectral measurements | 9-27 |
| A.S. Tertychnaya, K.S. Tertychniy, A.V. Khoperskov
Method for determining the coastlines of water bodies based on processing Landsat ETM+ remote sensing data | 28-38 |
| V.I. Titov, A.A. Antonov
Reconstruction of sea surface relief and sea wave spectra using a sea surface image | 39-49 |
| P.D. Zhadanova, K.R. Nazirova
Analysis and verification of turbidity and suspended solids concentration determination algorithms implemented in the ACOLITE software package | 50-68 |
| Developing information systems for remote monitoring: methods and technologies |
| O.A. Mitrofanova, E.P. Mitrofanov, V.P. Yakushev, V.V. Yakushev, V.M. Bure, S.Yu. Blokhina
Decision making tools on precision farming technologies feasibility based on geostatistical analysis of remote sensing data | 71-84 |
| A.A. Bril, А.М. Konstantinova, E.A. Loupian, M.A. Burtsev
Capabilities of IKI-Monitoring Shared Use Center operation with satellite monitoring–based trace gas component data | 85-95 |
| D.V. Lozin
System of operational construction of fire burning intensity maps and estimates of possible loss of forest vegetation as a result of fire action | 96-106 |
| Remote sensing in geology and geophysics |
| M.S. Volkova, V.O. Mikhailov, R.S. Osmanov
Interpretation of displacement fields on the slopes of Shiveluch volcano (Kamchatka) obtained from SAR interferometry images from two orbits | 109-119 |
| A.A. Zlatopolsky
Constancy of the area of the total catchment of watercourses of the same scale and the distribution of this catchment between watercourses of a larger scale | 120-129 |
| V.M. Lytkin, N.I. Basharin, A.F. Zhirkov, A.R. Kirillin, M.A. Sivtsev
Application of a terrestrial scanning laser in the study of annual and interannual variability of thermokarst in Central Yakutia | 130-139 |
| Remote sensing of vegetation and soils |
| A.G. Terekhov, G.N. Sagatdinova, I.Yu. Savin, E.N. Amirgaliyev
Satellite estimates of the impact of secondary salinization on agriculture sustainability in irrigated soils of Golodnaya Steppe (Kazakhstan) | 143-152 |
| S.S. Shinkarenko, S.А. Bartalev
Mapping of sor depressions and solonchaks in the Northern Caspian region based on long-term Landsat data | 153-165 |
| A.N. Zabrodin, E.I. Ponomarev
Dependence assessment between the degree of fire impact on vegetation and the fire radiative power | 166-175 |
| O.N. Vorobyev, E.A. Kurbanov, J. Sha, S.A. Lezhnin, J. Wang, D.M. Dergunov
Monitoring and prediction of land cover dynamics in the Middle Volga using satellite data with QGIS MOLUSCE | 176-193 |
| A.V. Ostroukhov, D.R. Klevtsov
Informativeness of vegetation indices in assessing post-cutting restoration of dark coniferous forests in Northern Sikhote-Alin according to data from Landsat series satellites | 194-204 |
| K.I. Simonova
Effects of snowmelt on seasonal and interannual vegetation dynamics in the Lena Delta | 205-216 |
| Remote sensing of water objects, ocean and ice cover |
| M.A. Zhivotovskaia, E.V. Zabolotskikh, S.M. Azarov
Variability of Arctic sea ice and sea water microwave emissivities | 219-231 |
| A.A. Romanov, A.A. Romanov
Features of the circulation of the northwestern Pacific Ocean according to satellite altimetry data | 232-245 |
| S.G. Kornienko
Studying the dynamics of thermokarst lakes in the area of the Yamburg gas field using Landsat satellite data | 246-260 |
| V.A. Pavlushin, A.A. Kubryakov
Variability of the Benguela upwelling according to satellite salinity data | 261-272 |
| O.A. Danilicheva, S.A. Ermakov
On biogenic films manifestations in satellite multispectral images of eutrophic water bodies | 273-284 |
| K.R. Nazirova, O.Yu. Lavrova, Ya.O. Alferyeva, N.A. Knyazev
Spatiotemporal plume variability of Terek and Sulak rivers from satellite data and concurrent in situ measurements | 285-303 |
| Remote sensing of atmosphere and climate |
| D.S. Khabituev, B.G. Shpynev
The circulation structures in the polar stratosphere of the Northern Hemisphere during the 2019–2021 winters | 307-316 |
| In brief |
| A.B. Jaxylykova, A.M. Mirash, A.A. Pak, Armanovich Ziyaden
Using natural language processing techniques to analyze the use of Google Earth Engine in 2015–2023 remote sensing research publications | 319-326 |
| R.V. Kotelnikov, E.A. Loupian, I.V. Balashov
Preliminary analysis of forest fires in the Russian Federation in the 2023 fire season based on remote monitoring data | 327-334 |
| E.A. Antipova, I.V. Balashov, R.R. Belyaev, R.V. Brezhnev, A.A. Bril, L.S. Kramareva, E.A. Loupian, Yu.A. Maglinets, A.A. Mazurov, K.V. Raevich
Assessment of the possibility of using the Arktika-M space system for monitoring wildfires by the example of data analysis for 2023 | 335-342 |
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| Imprint page
| 343 |