| Обзорные статьи |
| A.M. Matveev, S.A. Bartalev, V.A. Egorov, I.A. Saigin, F.V. Stytsenko, S.S. Shinkarenko
Validation of national and global satellite-derived burned area products in Russia | 9-30 |
| Методы и алгоритмы обработки спутниковых данных |
| A.I. Vasilyev, S.M. Sokolov
Verification of georeferencing quality of data and information products of Russian remote sensing space systems | 33-52 |
| A.A. Filei, A.I. Andreev
Using neural network to retrieve cloud water path from MSU-GS radiometer measurements on board the Electro-L No. 4 satellite | 53-63 |
| V.I. Gornyy, O.V. Balun, A.V. Kiselev, I.A. Smirnov, A.A. Tronin, E.P. Shkodina
Algorithm for using satellite imagery to identify promising areas for introduction of heat-loving agricultural crops: A case study of Novgorod Region | 64-80 |
| A.N. Yakusheva, N.A. Knyazev, M.V. Vrublevsky
Satellite image segmentation methods for river plume delineation using neural networks | 81-94 |
| Приборы и системы спутникового дистанционного зондирования Земли |
| I.N. Abezyaev
Algorithms for spacecraft astroorientation in the orbital coordinate system | 97-106 |
| Дистанционное зондирование в геологии и геофизике |
| A.A. Zlatopolsky
Statistical regularities of the length of runoff lines (the basis for calculating hydrological characteristics of the relief) | 109-118 |
| Дистанционное зондирование растительных и почвенных покровов |
| A.N. Chervan, B. Zhao
Determination of soil organic matter content in Minsk Region of Belarus using gradient boosting classifiers based on satellite data | 121-135 |
| A.M. Shpanev, A.F. Petrushin
Application of hyperspectral imaging from an unmanned aerial vehicle to assess weed infestation of grain crops | 136-148 |
| L.A. Ivanchina, L.A. Shilonosov, A.N. Shikhov
Estimation of drying out of dark coniferous forests caused by the spread of the four-eyed fir bark beetle in Perm Krai based on satellite and field observations | 149-160 |
| I.M. Mikhailenko, V.N. Timoshin
Estimation of the parameters of the state of biomass of root crops using remote sensing data | 161-170 |
| E.G. Shvetsov
Predicting post-fire forest mortality using remote sensing data and machine learning | 171-181 |
| M.Yu. Syroezhko, E.I. Ponomarev, T.V. Ponomareva
Spectral features of landscape transformation as characteristics of thermal regimes of soils of Central Siberia cryolithozone | 182-192 |
| T.B. Titkova, A.N. Zolotokrylin
Summer warming effects on changes in spectral characteristics of natural zone surfaces in Russia | 193-206 |
| S.S. Shinkarenko, S.A. Bartalev, A.B. Biarslanov, V.S. Poltarin
A method of mapping seasonal dynamics of open sand areas and deflated territories based on high-resolution satellite data and machine learning | 207-221 |
| Дистанционное зондирование водных объектов, океана и ледяных покровов |
| A.A. Romanov, A.A. Romanov
Study of characteristics of mesoscale variability of the Pacific Ocean in the area of South Kuril and Hokkaido islands based on satellite altimetry data | 225-234 |
| D.M. Shukalo, T.Ya. Shulga
Comparative analysis of Black Sea surface salinity, according to SMAP remote sensing observations and in situ oceanographic data | 235-243 |
| V.A. Rubakina, Yu.V. Simonova
Study of sea surface temperature variability in the area of the Southern Coast of Crimea using SEVIRI scanner and contact observations | 244-253 |
| A.V. Bernado, T.V. Belonenko, М.V. Budyansky
Ocean response to the passage of Pacific typhoons in extratropical latitudes | 254-267 |
| S.A. Ermakov, V.A. Dobrokhotov, I.A. Sergievskaya, T.N. Lazareva
On variations of radar backscatter due to short wind waves in a long-wave field | 268-278 |
| Дистанционное зондирование атмосферных и климатических процессов |
| G.V. Kobzar, G.M. Nerobelov, Yu.M. Timofeev
Analysis of CO2 content and emission based on OCO-2 satellite measurements | 281-289 |
| D.A. Samulenkov, M.V. Sapunov, E.V. Abakumov
Distribution of aerosol particles in Leningrad Region along the wind direction from Saint Petersburg | 290-298 |
| Дистанционное зондирование ионосферы |
| D.S. Maksimov, D.A. Kogogin, I.A. Nasyrov, R.V. Zagretdinov
Solar flares in the 25th cycle of activity: Effect on ionospheric disturbance and GNSS signal strength | 301-317 |
| Краткие сообщения |
| K.A. Troshko, P.V. Denisov, Ie.A. Dunaieva, E.A. Loupian, D.E. Plotnikov, V.A. Tolpin, D.A. Kobets
Development of winter crops in Russia in the spring-summer period of 2025 based on remote monitoring data | 321-328 |
| V.V. Sukhanova, A.V. Boroditskaya, Yu.A. Amelchenko, A.V. Kashnitskii
Rock collapse on the Bureya River — 6 years of satellite monitoring | 329-336 |
|
| Imprint page
| 337 |