| Review articles |
| Т.А. Сушкевич
Главный Теоретик М.В. Келдыш и Главный Конструктор
космонавтики С.П. Королев - покорители космоса | 9-25 |
| E. Loupian, A.А. Mazurov, R.R. Nazirov, A. Proshin, E. Flitman, Y. Krasheninnikova
Technologies for building remote monitoring information systems | 26-43 |
| S.A. Bartalev, T.S. Khovratovich
Assessment of satellite images segmentation methods for forest
change detection | 44-62 |
| Satellite data processing |
| V.G. Astafurov, А.V. Skorokhodov
Classification of clouds in satellite images based
on the technology of neural networks | 65-72 |
| E.I. Belova, D.V. Ershov
Preprocessing Landsat TM/ETM+ Data Sets for Creating Cloud-Free
Composite Imagery | 73-82 |
| A. I. Godunov, M. N. Zhizhin
Estimation of natural gas flaring from satellite data | 83-89 |
| T.V Kondranin, V.V. Kozoderov, O.Yu. Kazantsev, V.I. Bobylev, E.V. Dmitriev, V.D. Egorov, V.P. Kamentsev, V.V. Borzyak
Problems of hyperspectral remote sensing imagery classification | 90-98 |
| ДИСТАНЦИОННЫЙ МОНИТОРИНГ ЧРЕЗВЫЧАЙНЫХ СИТУАЦИЙ И ПРИРОДНЫХ ПОЖАРОВ |
| O.P. Arkhipkin, L.F. Spivak, G.N. Sagatdinova
Some new directions of space monitoring of water objects
in Kazakhstan | 101-110 |
| Kh.B. Kuular, E.I. Ponomarev
Wildfires of Tyva Republic | 111-117 |
| A. Podolskaya, D. Ershov, P. Shuliak
Forest fire occurrence probability assessment:
method and approach in Russian remote monitoring
information system (ISDM-Rosleskhoz) | 118-126 |
| E.V. Flitman, I.V. Balashov, M.A. Bourtsev, А.А. Galeev, V.A. Egorov, R.V. Kotelnikov, E.A. Loupian, A.A. Mazurov, A.M. Matveev, A.A. Proshin
Organization of the MODIS instrument data processing system for
the tasks of monitoring forest fires and their aftereffects | 127-138 |
| ИСПОЛЬЗОВАНИЕ ДИСТАНЦИОННЫХ МЕТОДОВ ПРИ ОЦЕНКЕ СОСТОЯНИЯ СЕЛЬСКОХОЗЯЙСТВЕННОЙ РАСТИТЕЛЬНОСТИ |
| A. Shelestov, S. Skakun, A. Kravchenko, N. Kussul
Distributed system for agriculture monitoring in Ukraine | 141-149 |
| I. Savin, S. Bartalev, E. Loupian, V. Tolpin, M. Medvedeva, D. Plotnikov
Satellite monitoring of vegetation affected by drought
(using drought 2010 in Russia as an example) | 150-162 |
| L. Spivak, I. Vitkovskaya, A. Terekhov, M. Batyrbayeva
Monitoring of long-term Changes of Vegetation Cover of Arid and
Semi-arid Zones of Kazakhstan with the Use of Remote Sensing Data | 163-169 |
| A. D. Kleshenko, T. A. Naidina
Use of remotely-sensed data for modeling of physiological process
of plants in the simulation models of forecasting of productivity of
agricultural crops | 170-177 |
| A.D. Kleschenko, O.V. Savitskaya
Technology of decade estimation of grain crops yield on satellite and
ground-based agrometeorological information | 178-182 |
| I. Lavrinenko
Vegetation dynamics of the Vaigach Island
under climate change impact | 183-189 |
| E. Loupian, I. Savin, S. Bartalev, V. Tolpin, I. Balashov, D. Plotnikov
Satellite Service for Vegetation Monitoring VEGA | 190-198 |
| D.E. Plotnikov, S.A. Bartalev, V.O. Zharko, V.V Mihailov, O.I. Prosyannikova
An experimental assessment of crop types recognisability
using time-series of intra-seasonal spectral reflectance
measurements by satellite sensor | 199-208 |
| E.A. Cherenkova
Anomalies of moistening of the south of European Russia using
satellite and observed data | 209-214 |
| Remote sensing of atmosphere and climate |
| S.V. Afonin, V.V. Belov
Physical causes for appearance of atmospheric glints
on satellite IR images | 217-224 |
| A.B. Beletsky, M.A. Chernigovskaya, A.V. Mikhalev, M.A. Tashchilin
Relationship of wave process at altitude
of the mesosphere-lower termosphere with strong disturbances in
the troposphere during various accompanying conditions
in the troposphere and stratosphere | 225-231 |
| S. Golovachev, M. Dubrov, V. Volkov
The Interaction between the Tropical Cyclogenesis and Seismic
Activity as Derived from Spacecraft and Ground-Based
Measuring Systems | 232-238 |
| N.S. Erokhin, N.N. Zolnikova, F.F. Lazarev, L.A. Mikhailovskaya
The Nonlinear Dynamics of Annual Behaviour of Regional
Cyclogenesis in Small-Parametric Model | 239-245 |
| A.A. Milshin, A.G. Grankov, N.K. Shelobanova
Validation of the Model of the global-large scale natural microwave
Earth radiation in a decimeter band | 246-254 |
| I.V. Mingalev, K.G. Orlov, V.S. Mingalev
The mechanism of formation of polar cyclones and possibility their
predictions by using satellite observation data | 255-262 |
| E.V. Perekhodtseva
The model of hydrodynamic-statistical forecast of the strong squalls
and tornadoes over the territory of Siberia with the earliness 12-48 h | 263-270 |
| G.R. Khairullina, N.M. Astafieva
The Latitude-Time Structure of the Quasi-Biennial Oscillations
of a Radio Thermal Field (Troposphere) | 271-279 |
| Е.А. Sharkov, Ya.N. Sharmkov, I.V. Pokrovskaya
Boundary Parameter of Tropical Cyclones Genesis
in the Global Integral Water Vapor Field | 280-286 |
| Y.N. Shramkov, E.A. Sharkov, I.V. Pokrovskaya, M. D. Raev
Features of Monitoring of Tropical Cyclogenesis
in the Global Field of Water Vapor | 287-292 |
| ДИСТАНЦИОННЫЕ ИССЛЕДОВАНИЯ ИОНОСФЕРЫ |
| F.I. Vybornov, V.A. Alimov, A.V. Rakhlin
The phase method for the investigation of the fractal ionospheric
turbulence structure | 295-302 |
| N.P. Perevalova, A.S. Polyakova, A.B. Ishin, S.V. Voeykov
Comparative analysis of ionospheric and meteorological parameter
variations over tropical cyclones Rita (18-26.09.2005)
and Wilma (15-25.10.2005) | 303-312 |
| I.V. Surovtseva, V.O. Skripachev, D.L. Spirichev, I.O. Skripachev
Programs set determine the parameters of the ionosphere by means
of radiosounding | 313-318 |
| M.A. Chernigovskaya, V.I. Kurkin, I.I. Orlov, B.M. Shevtsov, I.N. Poddelsky
Variation of ionospheric parameters in the Asian region of Russia in
the period of tropical cyclones | 319-327 |