| Reviews |
| V.I. Gornyy, O.V. Brovkina, A.V. Kiselev, A.A. Tronin
Trends in remote sensing methods for geological and environmental applications | 9-38 |
| Satellite data processing: methods and techniques |
| G.P. Arumov, A.V. Bukharin
Comparison of two-position lidar systems in the problem of backscatter signal interpretation | 41-48 |
| M.I. Babokin, P.E. Shimkin
Application of space-based SAR in single-pass squint mode in Earth tomographic study | 49-59 |
| A.V. Kashnitskii, E.A. Loupian, D.E. Plotnikov, V.A. Tolpin
Analysis of the possibility of using different spatial resolution data for objects monitoring | 60-74 |
| M.D. Moskovchenko
Use of convolutional neural networks for geospatial modelling of species structure and taxation characteristics of forests (case study of Khanty-Mansi Autonomous Okrug – Yugra) | 75-93 |
| Developing information systems for remote monitoring: methods and technologies |
| V.V. Tarasenko, B.V. Raevsky
Development of pseudo-surfaces for ground cover monitoring: the case of western Russian Karelia | 97-112 |
| I.V. Balashov, V.V. Marchenkov, A.A. Proshin, B.P. Rutkevich, I.A. Uvarov
Development of services for effective time series data analysis for ultra-large distributed archives | 113-122 |
| Remote sensing in geology and geophysics |
| A.A. Zlatopolsky, E.A. Shekman
Ordinal and scale statistics of valleys found by digital terrain model | 125-134 |
| I.P. Babayantz, V.O. Mikhailov, E.P. Timoshkina, S.A. Khairetdinov
On the accuracy of the vertical and eastern components of the Earth’s surface displacements calculated from SAR images obtained from two orbits | 135-143 |
| L.G. Sverdlik
Dynamics of perturbations in the lower atmosphere in seismically active regions of Asia | 144-152 |
| Remote sensing of vegetation and soils |
| L.V. Illarionova, A.S. Stepanov, E.A. Fomina
Recognition of crops in Khabarovsk Krai using NDVI and EVI | 155-165 |
| A.V. Golovin, N.V. Stoyashcheva, N.M. Kovalevskaya
Assessing the dynamics of natural coastal complexes of Lake Bolshoye Topolnoye (Altai Krai) using a time series of multispectral data of different resolution | 166-173 |
| S.S. Shinkarenko, S.A. Bartalev, M.A. Bogodukhov, V.O. Zharko
Assessment of possibilities for protective forest belts canopy closure and height estimation based on ICESat-2 data | 174-183 |
| S.G. Kornienko
Characteristics of anthropogenic transformations of the ground cover in the area of Yamburg gas field based on Landsat satellite data | 184-201 |
| Remote sensing of water objects, ocean and ice cover |
| T.F. Kuzmichyova
On filling of the eastern part of the former Aral Sea due to water discharge through the Kokaral Dam from analysis of Aqua/Terra satellite images | 205-215 |
| N.A. Bogatov, I.A. Kapustin, A.A. Molkov, A.V. Ermoshkin
Retrieval of wind ripple speed from stereo imagery of sea surface | 216-225 |
| Remote sensing of atmosphere and climate |
| R.Yu. Lukianova
Stratospheric aerosol over the region of Kazakhstan according to Suomi NPP satellite observations | 229-237 |
| A.F. Nerushev, R.V. Ivangorodsky
On the use of data from European geostationary meteorological satellites for wind field assessments in conditions of sanctions | 238-245 |
| L.M. Mitnik, V.P. Kuleshov, M.L. Mitnik, A.V. Baranyuk
Satellite microwave radiometric measurements of extreme temperature rise in East Antarctica in March 2022 | 246-261 |
| D.A. Iarovaia, V.V. Efimov
Numerical modelling of interaction between Novorossiysk bora and upper layer of the Black Sea | 262-272 |
| D.A. Samulenkov, M.V. Sapunov, A.Yu. Lyanguzov
Aerosol pollution of the atmosphere according to the data of a lidar complex and a solar photometer | 273-280 |
| In brief |
| O.A. Girina, E.A. Loupian, A. Horvath, D.V. Melnikov, A.G. Manevich, A.A. Nuzhdaev, A.A. Bril, A.Yu. Ozerov, L.S. Kramareva, A.А. Sorokin
Analysis of the development of the paroxysmal eruption of Sheveluch volcano on April 10–13, 2023, based on data from various satellite systems | 283-291 |
| D.V. Lozin, E.A. Loupian, I.V. Balashov, S.A. Bartalev
Estimation of northern burnt forests mortality in the XXI century based on MODIS data on fire intensity | 292-301 |
| K.A. Troshko, P.V. Denisov, Ie.A. Dunaieva, E.A. Loupian, D.E. Plotnikov, V.A. Tolpin
Development of winter crops in the southern and central regions of Russia in spring 2023 based on remote sensing data | 302-308 |
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| Imprint page
| 309 |