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Table of Contents
Remote methods in Earth research
| Evaluation of satellite images with different spectral resolution for analyzing the vegetation cover condition |
PDF (Rus) 5–20 |
| Baldina E.A., Ilyushina P.G., Vasiliev P.K. |
| Algorithms for automation of sub tree taxation based on airborne laser scanning and multispectral imagery data |
PDF (Rus) 21–35 |
| Bogatyrev D.A., Burdin A.A., Pyankov S.V. |
| Assessment of land disturbance based on satellite images near mining industry enterprises |
PDF (Rus) 36–53 |
| Bityukova V.R., Dyubanov A.V. |
| Animal habitat interpretation with KERAS library deep learning methods |
PDF (Rus) 54–65 |
| Korosov A.V., Marfitsyna N.A. |
| Investigation of the Muldai crater using airborne laser scanning |
PDF (Rus) 66–82 |
| Rylskiy I.A., Malevannaya M.S., Paramonov D.A., Gruzdev R.V. |
| Mapping Uzon caldera vegetation using remote sensing data and machine learning |
PDF (Rus) 83–99 |
| Maksimovich N.V., Tarasov A.A., Korablev A.P., Pozdnyakova N.A., Andreeva T.A., Artemeva O.V. |
| The experience of using NDVI and color vegetation indexes of UAVs to identify phytocenotic parameters of steppe vegetation |
PDF (Rus) 100–116 |
| Pavleichik V.M. |
| Features of interpretation of satellite images of wetlands in the development of specialized topographic maps for nature conservation purposes |
PDF (Rus) 117–134 |
| Vereshchaka T.V., Ivanova A.A., Stepanchenko A.L. |
| Accuracy assessment of satellite-derived sea surface temperature and chlorophyll-A concentration products based on field measurements |
PDF (Rus) 135–142 |
| Ilyushina P.G., Yarkov K.P., Kalenichenko V.O., Doroshenko S.V. |
| Application of remote methods for estimating carbon reserves at the site of the Far Eastern carbon landfill |
PDF (Rus) 143–153 |
| Vikhrenko S.V., Lialiushko E.A., Nagornyi K.A., Yaroslavtsev A.M., Kostyk V.A., Lisina I.A. |
| Application of the meanshift segmentation method for tree crown delineation from UAV imagery using Orfeo ToolBox |
PDF (Rus) 154–163 |
| Shilonosov L.A., Rotermel E.E., Belyaev T.A., Makurin D.V., Ivanchina L.A. |
| Spatiotemporal aspects of fire development in the Ural-Altai sector of the steppes of Northern Eurasia based on MODIS data |
PDF (Rus) 164–177 |
| Pavleichik V.M., Svyatoha N.Yu. |
| Comparison of ArcticDEM with airbome laser scanning data |
PDF (Rus) 178–195 |
| Rylskiy I.A., Malevannaya M.S., Paramonov D.A., Gruzdev R.V. |
Cartographic and GIS support for studies of water bodies and coastal territories
| Rivers of the Easter Azov region as a product of geomorphological technogenesis |
PDF (Rus) 196–211 |
| Pogorelov A.V., Laguta A.A., Kiselev E.N. |
| Automated detection of Yarka island (Baikal lake) based on NDWI, MNDWI and WRI spectral indices |
PDF (Rus) 212–220 |
| Andreyev F.M., Sutyrina E.N. |
| Analysis of interannual spatial-temporal variability of water quality of the Krasnaya river in the Kaliningrad region |
PDF (Rus) 221–234 |
| Spirin Yu.A., Zotov S.I., Taran V.S. |
| Geoinformation analysis and mapping of ice hummocky formations of the Azov and Caspian seas in 2015–2025 |
PDF (Rus) 235–244 |
| Magaeva A.A. |
| Methodology for discovery of aquatic ecosystems primary biosynthesis intensity within-year dynamics on the base of the Earth remote sensing |
PDF (Rus) 245–258 |
| Tretyakov V.Yu., Dmitriev V.V., Klubov S.M. |
| The experience of extrapolating productivity estimates for the water area of lake Onego |
PDF (Rus) 259–273 |
| Kalinkina N.M., Tekanova E.V., Korosov A.V., Syarki M.T., Makarova E.M., Isakova K.V. |
| The use of multispectral images to assess lake overgrowth |
PDF (Rus) 274–286 |
| Alexandrova A.B., Ziganshin I.I., Khasanov R.R., Ryazanov S.S., Sabirzyanov A.M., Pudovik E.M. |
| Digital hydrological landscape model for hydrological simulations of the river basin |
PDF (Eng) 287–300 |
| Klikunova A.Yu., Khoperskov A.V. |
| Influence of waterlogging of the territory on the change of vegetation cover of the Korgalzhyn reserve (according to remote sensing data) |
PDF (Rus) 301–316 |
| Zengina T.Yu. |
| A multiscale study of LULC structure and water quality relationships (case study of the Vorskla river basin) |
PDF (Rus) 317–342 |
| Huang L. |
Maps and GIS in agriculture and land use
| Geoinformation system of Pavlodar region (Kazakhstan) for assessing the state of soil cover |
PDF (Rus) 343–357 |
| Alyabina I.O., Isaeva Z.B., Pogorelova O.E., Shoba S.A. |
| Geoinformation mapping of magnetic susceptibility of soils and epiphytes (on the example of Motovilikhinsky district of Perm) |
PDF (Rus) 358–370 |
| Vasil’ev A.A., Bobrova A.V., Chashchin A.N. |
| Geoinformation analysis of soil sealing in Kazan |
PDF (Rus) 371–382 |
| Shakirova Yu.A., Rudenko A.V., Shigapov I.S., Kholov Y.D. |
| Land use changes and their geoecological consequences in the Tunkinsky national park for 2000–2020 (based on geospatial data) |
PDF (Rus) 383–398 |
| Alekseeva N.N., Shutukova T.B. |
| Use of magnetic susceptibility index for mapping heavy metal pollution of urban soils in Yakutia |
PDF (Rus) 399–407 |
| Alekseev A.A. |
| Cartographic support of the geoinformation system of agroecological assessment of agricultural lands |
PDF (Rus) 408–424 |
| Kondratieva M.A., Samofalova I.A. |
| Integration of RS data and UAV data for agricultural productivity assessment and differential fertilization in Kazakhstan |
PDF (Eng) 425–441 |
| Apshikur B., Asangaliyev E.A., Rakhimov M.A., Medvedeva E.V. |
| The analysis of protective afforestation factors using GIS methods (on example of the Belgorod region) |
PDF (Rus) 442–456 |
| Luzhkov R.S., Pakina A.A. |
| Digital mapping of agrochemical properties on a detailed scale using UAVS |
PDF (Rus) 457–472 |
| Chashchin A.N., Mudrykh N.M., Samofalova I.A. |
| Geomorphometric assessment of soil erosion and gully development in foothill agricultural lands using remote sensing and GIS |
PDF (Eng) 473–488 |
| Apshikur B., Rakhimov M.A., Okasova A.D., Seilkhanova A.B. |
| Geospatial assessment of soil nutrient availability for sustainable land management: a case study of the Don river basin |
PDF (Eng) 489–496 |
| Ogorodnikov S.S. |
| Quantitative assessment of soil loss in plowing furrows and spring rainfall streams: the upper Oka basin |
PDF (Rus) 497–518 |
| Trofimetz L.N., Panidi E.A., Chaadaeva N.N., Tyapkina A.P., Saraeva A.M., Lavrusevich A.A., Tumanov N.A., Tarasov A.V., Barkalov A.O. |
| Measuring and mapping of soil diversity using landscapemetrics package (on example of the Central-Chernozem region) |
PDF (Rus) 519–533 |
| Ukrainskiy P.A. |