|
Editors' introduction | -7 |
| Remote sensing technologies in agriculture |
| V.P. Yakushev, N.N. Dubenok, E.A. Loupian
Earth remote sensing technologies for agriculture: application experience and development prospects | 11-23 |
| V.P. Yakushev, E.V. Kanash, V.V. Yakushev, D.A. Matveenko, D.V. Rusakov, S.Yu. Blokhina, A.F. Petrushin, E.P. Mitrofanov
Advanced features of automated detection of within-field variability based on hyperspectral images and optical criteria | 24-32 |
| A.M. Zeyliger, O.S. Ermolaeva, E.L. Muzylev, Z.P. Startseva, Yu.I. Sukharev
Computer analysis of water stress regimes of an irrigated agrocoenosis using the SWAP model and ground and space monitoring data | 33-43 |
| E.L. Muzylev, Z.P. Startseva, A.M. Zeyliger, O.S. Ermolaeva, E.V. Volkova, E.V. Vasilenko, A.I. Osipov
The use of satellite data on land surface and meteorological characteristics in modeling the water and heat regimes of large agricultural region | 44-60 |
| A.M. Shpanev
Experimental basis for remote sensing of phytosanitary condition of agroecosystems in the North-West of the Russian Federation | 61-68 |
| V.A. Pavlyushin, A.K. Lysov
Phytosanitary safety of agro-ecological systems and remote phytosanitary monitoring in plant protection | 69-78 |
| D.A. Matveenko, V.V. Yakushev, V.P. Yakushev
Precision management of the nitrogen status of spring wheat crops based on remote sensing data | 79-86 |
| Yu.I. Blokhin, A.V. Belov, S.Yu. Blokhina
Integrated system for control of soil moisture and local weather conditions for remote sensing data interpretation | 87-95 |
| N.N. Dubenok, Yu.G. Yanko, A.F. Petrushin, R.V. Kalinichenko
Remote sensing data in land-reclamation systems and reclaimed land management assessment | 96-104 |
| N.V. Kocherina
Molecular genetic characterization of remote-optical methods data for effective selection of genotypes for plant breeding | 105-109 |
| E.V. Truflyak, S.I. Skubiev, V.V. Tsybulevsky, N.V. Malashikhin
Rice crops remote monitoring and heterogeneities detection algorithm | 110-124 |
| N.V. Gopp, O.А. Savenkov, A.V. Smirnov
Digital mapping of spring wheat yield based on vegetation indices and estimation of its changes depending on the properties of anthropogenically transformed soils | 125-139 |
| Yu.G. Zakharyan, A.A. Komarov
Prospects for geostatistics application for analyzing plant state on the basis of remote sensing data | 140-148 |
| Information systems for remote monitoring |
| E.A. Loupian, A.A. Proshin, M.A. Bourtsev, A.V. Kashnitskii, I.V. Balashov, S.А. Bartalev, А.М. Konstantinova, D.A. Kobets, A.A. Mazurov, V.V. Marchenkov, A.M. Matveev, M.V. Radchenko, I.G. Sychugov, V.A. Tolpin, I.A. Uvarov
Experience of development and operation of the IKI-Monitoring center for collective use of systems for archiving, processing and analyzing satellite data | 151-170 |
| K.A. Bulanov, P.V. Denisov, E.A. Loupian, A.S. Martyanov, I.I. Sereda, K.A. Troshko, V.A. Tolpin, S.А. Bartalev, S.A. Khvostikov
Remote sensing unit of Integrated Federal Information System on Agricultural Lands | 171-182 |
| V.A. Tolpin, S.А. Bartalev, E.S. Elkina, A.V. Kashnitskii, А.М. Konstantinova, E.A. Loupian, V.V. Marchenkov, D.E. Plotnikov, V.C. Patil, J.К. Sunil
The VEGA-GEOGLAM information system: a tool for the development of methods and approaches to using satellite remote sensing data in problem-solving tasks of global agricultural monitoring | 183-197 |
| M.A. Burtsev, S.A. Uspenskiy, L.S. Kramareva, V.N. Antonov, A.V. Kalashnikov, I.V. Balashov, A.V. Kashnitskii, E.A. Loupian, A.M. Matveev, A.A. Proshin
Actual features and evolution prospects of the SRC “Planeta” distributed data operation united system | 198-212 |
| L.S. Kramareva, A.N. Davidenko
Application of satellite data in METEO DV GIS | 213-219 |
| V.V. Romashkin, P.A. Loshkarev, D.I. Fedotkin, O.O. Tohiyan, T.A. Arefyeva, V.A. Musienko
UGDIS ERS — modern solutions in the development of domestic terrestrial space infrastructure of Earth remote sensing from space | 220-227 |
| A.N. Markov, A.I. Vasilyev, N.A. Olshevskiy, R.A. Mikhalenkov, B.B. Salimonov, P.A. Sinyaev, M.A. Evlashkin
Access features to the Basic Product Bank geoinformation service resources | 228-237 |
| A.А. Sorokin, S.P. Korolev, S.I. Malkovsky
The Signal automated information system: research and operational monitoring of dangerous natural phenomena in the Russian Far East | 238-248 |
| O.A. Girina, E.A. Loupian, D.V. Melnikov, A.V. Kashnitskii, I.A. Uvarov, A.A. Bril, А.М. Konstantinova, M.A. Burtsev, A.G. Manevich, E.I. Gordeev, L.S. Kramareva, A.А. Sorokin, S.I. Malkovsky, S.P. Korolev
Creation and development of the information system “Remote Monitoring of Kamchatka and Kuril Islands Volcanic Activity” | 249-265 |
| O.Yu. Lavrova, M.I. Mityagina, I.A. Uvarov, E.A. Loupian
Current capabilities and experience of using the See the Sea information system for studying and monitoring phenomena and processes on the sea surface | 266-287 |
| A.I. Aleksanin, M.G. Aleksanina, P.V. Babyak, V.S. Eremenko
Integration of satellite data and service provider | 288-300 |
| In brief |
| O.A. Girina, E.A. Loupian, I.A. Uvarov, L.S. Kramareva
Raikoke volcano eruption on 21 June 2019 | 303-307 |
|
| Imprint page
| 308 |