Full Issue
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Table of Contents
GIS and cartographic support of ecological, economic and social aspects of sustainable development of territories
| New technologies for modern geoinformatics |
PDF (Rus) 5–34 |
| Markova O.I., Tikunov V.S. |
| Green city—future sustainable development and smart growth |
PDF (Eng) 35–42 |
| Naydenov K.M., Atanasov D.S. |
| Methodology for regional assessment of the third level digital inequality |
PDF (Rus) 43–57 |
| Chereshnia O.Yu., Gribok M.V. |
| Concept of an integration of open data for socio-economic mapping in Uzbekistan |
PDF (Eng) 58–68 |
| Gulyamova L.X., Rakhmonov D.N. |
| Differentiation of priority ecosystem services of green infrastructure in Kirovsk (Murmansk region) |
PDF (Rus) 69–77 |
| Belousov S.K., Evseev A.V., Krasovskaya T.M. |
| Implementation of large investment projects in the Northern sea route coastal territory in the context of climate changes |
PDF (Rus) 91–104 |
| Badina S.V., Pankratov A.A. |
| Assessment of provision with the transport network of the regions of the Republic of Sakha (Yakutia) |
PDF (Rus) 105–114 |
| Fedorova A.S., Savvinova A.N., Zakharov M.I. |
| Assessment of environmental effects of road construction in Moscow: microgeographic analysis |
PDF (Rus) 115–128 |
| Bityukova V.R., Mozgunov N.A., Gapizzhanuly G. |
| Classification of mountain taiga geosystems of the Cisbaikalia and their mapping |
PDF (Rus) 129–138 |
| Bilichenko I.N. |
| Geoinformation analysis of the spatial variability of the Raikoke island (Kuril islands) geosystem |
PDF (Rus) 139–147 |
| Verkhoturov A.A., Melkiy V.A. |
| Location maps of foreign TNCs as contribution to the geography of US global cities |
PDF (Rus) 148–160 |
| Kolyasev E.F., Pilka M.E., Sluka N.A. |
| Methodology of constructive approach in geoinformation mapping of geographical environment |
PDF (Rus) 161–174 |
| Kuznetsova T.I. |
| Cartographic support of identification of natural and man-made sources of dissolved matter in lake Baikal basin |
PDF (Rus) 175–188 |
| Semenov Y.M., Silayev A.V., Semenov M.Yu. |
| Geoinformation support of the school course of geography |
PDF (Rus) 189–203 |
| Morozova E.A., Bryzhko I.V. |
| Geoinformation analysis of changes in indicators of Almaty city’s forests fragmentation |
PDF (Rus) 204–218 |
| Zengina T.Yu., Pakina A.A., Mukanova N.N. |
| Research and mapping of some aspects of transport in the Tver region |
PDF (Rus) 219–229 |
| Aleksandrov V.Yu., Prohorova E.A. |
| Development of navigation and map search system for the Ecological atlas of Russia online version |
PDF (Rus) 230–239 |
| Gribok M.V. |
| Assessment of the degree of interstate integration within the european single market |
PDF (Rus) 240–254 |
| Khasaya N.M., Grechko E.A. |
| Integration of communicative and geographical approaches in media-ecological research (by the example of the analysis of the largest newspapers from Russia, China and Japan) |
PDF (Rus) 255–265 |
| Kokhanova L.A., Golovko S.B., Kharybin E.V., Chereshneva U.E., Gribok M.V. |
Remote methods in Earth research
| Technique for interpretation of archive and recent satellite images to study the slope processes dynamics in the Geyzernaya river valley (Kamchatka) |
PDF (Rus) 266–283 |
| Baldina E.A., Lebedeva E.V., Medvedev A.A. |
| Unmanned aerial survey in the summer season of the 67th Russian antarctic expedition |
PDF (Rus) 284–304 |
| Florinsky I.V. |
| Climate-driven “greening” of the kurum landscape in the valley of the lower reaches of the Podkamennaya Tunguska river |
PDF (Rus) 305–313 |
| Vysotskaya A.A., Medvedkov A.A. |
| Calculation of vegetation passability categories for vehicles based on laser scanning data |
PDF (Rus) 314–324 |
| Rylskiy I.A., Nokelaynen T.S., Kotova T.V., Panin A.N. |
| Vegetation dynamics of the Norilsk industrial region under the influence of aerotechnogenic and natural factors |
PDF (Rus) 325–345 |
| Kravtsova V.I., Zheleznyy O.M. |
| Analysis of the lower Volga floodplain landscapes burning according to active fire and burnt areas satellite data |
PDF (Rus) 346–358 |
| Berdengalieva A.N. |
| Geoinformation mapping of sor depression in the Northwestern Caspian |
PDF (Rus) 359–367 |
| Berdengalieva A.N., Shinkarenko S.S., Vypritskiy A.A. |
| The hybrid method of water levels and volumes reconstructing in the Arakhley lake (Trans-Baikal territory) according to Landsat remote sensing data with unmanned aerial vehicles images fusion |
PDF (Rus) 368–382 |
| Kurganovich K.A., Kochev D.V., Bosov M.A. |
| Radar sensing of the sea surface using small spacecraft |
PDF (Eng) 383–393 |
| Kartsan I.N., Zhukov A.O. |
| A method for detecting plastic waste floating using Sentinel 2 high spatial resolution image: a case study in the coastal area of Vietnam |
PDF (Eng) 394–407 |
| Trinh L.H., Nghiem V.T., Bien T.X., Le V.P., Nguyen S.T. |
| Determination of transverse structures based on lineament analysis: a case study of the Fergana valley |
PDF (Rus) 408–416 |
| Sichugova L.V., Fazilova D.Sh. |
| Creating a fault map of the Central-Kamushovy meganticlinorium of the Western Sakhalin mountains by space survey data |
PDF (Rus) 417–429 |
| Melkiy V.A., Kuptsova O.V., Verkhoturov A.A. |
| Use of UAV Geoscan 201 for surveying a linear object of the Khiva–Urgench highway |
PDF (Rus) 430–440 |
| Shukina O.G., Ruziev A.S., Ergashev M.Z. |
| Analysis of the ice cover variations in the arctic sea of Okhotsk based on aircraft and satellite observations |
PDF (Rus) 441–449 |
| Romanyuk V.A., Pishchalnik V.M., Zarubina D.V. |
| Comparative analysis of the ice coverage in the Bering sea according to the Sea Ice Index and Masie data |
PDF (Rus) 450–457 |
| Oganezov A.S., Pishchalnik V.M., Romanyuk V.A. |
| Changes in the form of forests in the Central Russian upland in the submeridional direction (quantitative description based on landscape metrics) |
PDF (Rus) 471–479 |
| Ukrainskiy P.A. |
| Application of unmanned aerial vehicles for geomorphological mapping of landslide slopes of the Aibga ridge (Western Caucasus) |
PDF (Rus) 480–495 |
| Sokratov S.A., Suchilin A.A., Shnyparkov A.L., Ushakova L.A., Voskresensky I.S., Belaya N.I. |
| Evaluation of the possibility of vegetation interpretation on thermal infrared satellite images, case of the Southern Urals and Kuznetsk Alatau |
PDF (Rus) 496–507 |
| Grishchenko M.Y., Lucher D.A., Bocharnikov M.V. |
New methods and approaches in geoinformation modeling and data analysis
| Information content of geoinformation computational visualization of natural object formation processes |
PDF (Rus) 508–522 |
| Varshanina T.P., Khunagov R.D., Korobkov V.N. |
| A comparison of GIS landscape modeling and traditional landscape mapping (by the example of the Elbrus region) |
PDF (Rus) 523–539 |
| Kolbovskii E.Iu., Gunya A.N., Petrushina M.N. |
| Creating virtual models for designing port complexes based on lidar data |
PDF (Rus) 540–555 |
| Rylskiy I.A., Kozhukhar A.Yu., Terskaia A.I. |
| Experience of network modeling and mapping based on spatio-temporal database on the backbone electric networks |
PDF (Rus) 556–567 |
| Karpachevskiy A.M., Titov G.S., Tulskaya N.I., Prasolova A.I. |
| Improving global Geoid by GPS and leveling data over the Fergana valley territory |
PDF (Rus) 568–579 |
| Fazilova D.Sh., Kazakov A.N., Alimukhamedov I.M. |
| Analysis and evaluation of the resource potential of a territory using the method of geocognitive modeling |
PDF (Eng) 580–588 |
| Karpik A.P., Lisitsky D.V., Osipov A.G., Savinykh V.N. |
| Dynamics of individual glaciers of the Munku-Sardyk massif (Eastern Sayan) and the Karlyktag range (Eastern Tien Shan) |
PDF (Rus) 589–602 |
| Kitov A.D., Plyusnin V.M. |
| About the experience of developing a GIS project of the university campus |
PDF (Rus) 603–612 |
| Mazhitova G.Z., Shugulova D.K., Sedelnikov I.A. |
| Analysis of the Inerka polygon metageosystems by means of Ensembles of machine learning models |
PDF (Rus) 613–628 |
| Yamashkin A.A., Yamashkin S.A. |
| Geoinformation modeling of the project of eco-geological park in difficult social and environmental conditions of the center of Tyumen |
PDF (Rus) 629–644 |
| Brekhuntsov A.M., Petrov Yu.V. |
| Modeling network of research sites for monitoring carbon flows by Random Forest method |
PDF (Rus) 645–658 |
| Dobryakova V.A., Moskvina N.N., Dobryakov A.B., Zhegalina L.F. |
| Automation of data preparation for mapping using natural language processing systems |
PDF (Rus) 659–669 |
| Kolesnikov A.A., Plitchenko E.A., Kropacheva M.K. |
| Application of GIS technologies and plastic flow map for studying landslides of the Chirchik basin |
PDF (Rus) 670–682 |
| Sabitova N.I, Stelmakh A.G., Tajibaeva N.R., Minchenko V.D. |
| Algorithms and methodology for inflection line identification within information and mathematical model of relief |
PDF (Rus) 683–695 |
| Plisenko O.A. |