The use of remote sensing methods for agroresources monitoring in Ukraine
Heading:
| 1Zholobak, GM 1State institution «Scientific Centre for Aerospace Research of the Earth of the Institute of Geological Sciences of the National Academy of Sciences of Ukraine», Kyiv, Ukraine |
| Kosm. nauka tehnol. 2010, 16 ;(6):16-23 |
| https://doi.org/10.15407/knit2010.06.016 |
| Publication Language: Ukrainian |
Abstract: The state of remote sensing technologies for agro-industrial complex of Ukraine beginning from the 1980s is analysed. The achievements of Ukraine in the sphere of satellite observations of agroresources are surveyed. Some problems and prospects of the satellite data application for goals of agricultural production in Ukraine are considered.
|
| Keywords: agro-industrial complex, monitoring, remote sensing |
References:
1. Akatkin Yu. M., Efremov V. Yu., Lupian E. A., et al. Possibilities of remote work with data of the remote monitoring system of agricultural lands of the Ministry of Agriculture of the Russian Federation. In: Current problems in remote sensing of the Earth from space [Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa]: Proceedings, Vol. II, is. 5, 395—406 (OOO «Azbuka-2000», Moscow, 2008) [in Russian].
2. Antonenko V. S. Agrometeorological monitoring of agricultural crops in Ukraine using aerospace methods, 308 p. (ArtJek, Kiev, 2002) [in Russian].
3. Atroshenko L. M., Atroshenko M. D., Gorobets N. N., Safronova L. P. Improving the reliability of forecasting crop yields on high-resolution radar satellite imagery. In: Current problems in remote sensing of the Earth from space [Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa]: Proceedings, Vol. II, is. 5, 245—250 (OOO «Azbuka-2000», Moscow, 2008) [in Russian].
4. Bartalev S. A., Burtsev M. A., Ershov D. V., et al. The system of automated collection, processing and dissemination of satellite data for monitoring agricultural land. In: Current problems in remote sensing of the Earth from space [Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa]: Proceedings, Vol. I, is. 2, 140— 148 (GRANP polygraph, Moscow, 2005) [in Russian].
5. Besarabova L. M., Gvozdev A. V., Pavlova A. G. Experience of remote control of the phytosanitary state of wheat. In: Remote methods of analysis of agricultural production, 107—114 (VNIP-TIK, Moscow, 1982) [in Russian].
6. Brodsky L., Bushuev E. I., Voloshin V. I., et al. The INTAS project for the elaboration of automated technology of land cover classification:the scientific problems,main results and prospects. Kosm. nauka tehnol., 15 (2), 36—48 (2009) [in Russian].
https://doi.org/10.15407/knit2009.02.036
https://doi.org/10.15407/knit2009.02.036
7. Ismatova H. R. The role of remote sensing data in the creation of digital land use maps in Azerbaijan. In: Current problems in remote sensing of the Earth from space [Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa]: Proceedings, Vol. II, 273—279 (GRANP polygraph, Moscow, 2005) [in Russian].
8. Kobets M. I. Space as the highest level of agrarian technology. Propozycija, No. 6 (2004) [in Ukrainian]. Available: http://www.propozitsiya.com/?page=149&itemid=1424&number=45
9. Kobets M. I. Problematic Issues of Establishing in Ukraine a Monitoring System for Agrarian Resources and Crop Prognostication (SMAPU). In: Materialy Mizhvidomchoi' robochoi' narady z pytan' pidgotovky DNTP «Agrokosmos». (Kyiv, 2009) [in Ukrainian]. Available: http://brc.undp.org.ua/ua/press/news/119
10. Kochubey S. M., Kobets N. I., Shadchina T. M. The shape reflectance spectra of the leaves as informative basis of the remote sensing of crop state. Physiology and biochemistry of cultivated plants [Fiziologija i biohimija kul'turnyh rastenij], 19 (6), 539—545 (1987) [in Russian].
11. Kravchuk V. I., Serdiuchenko N. M., Kovtunenko O. V., et al. Fundamentals of agrarian resources monitoring methodology and forecasting crop yields for the MARS project. In: Tekhniko-tekhnolohichni aspekty rozvytku ta vyprobuvannia novoi tekhniky i tekhnolohij dlia sil's'koho hospodarstva Ukrainy: Zb. nauk. prats', Is. 13 (27), vol. 2, 3—14 (Doslidnic'ke, 2009) [in Ukrainian].
12. Kryvobok O. A. Methods of automated processing and interpretation of multispectral satellite survey of crops in Ukraine: Extended abstract of candidate’s thesis, 16 p. (Odesa, 1997) [in Ukrainian].
13. Kussul' N. N., Il'in N. I., Skakun S. V., Lavrenyuk A. N. Estimating the state of vegetation and predicting the productivity of winter crops in Ukraine using satellite data. In: Decision Making and Business Intelligence, Strategies and Techniques: Intern. Book Series, No. 3, 103—109 (Varna, 2008) [in Russian].
14. Lyal'ko V. I., Sakhatskii A. I., Khodorovskii A. Ya., et al. Possibilities for the prognostication of the productivity of cereals from multizonal AVHRR, NOAA, and Landsat TM images (by the example of the Kyiv Oblast). Kosm. nauka tehnol., 8 (2-3), 249—255 (2002) [in Russian].
15. Lyalko V. I., Sakhatskii A. I., , Zholobak G. M., et al. An experience on complex using of multiband NOAA/AVHRR and Landsat-7 images for a winter wheat yield forecast (for the case of the Kyiv region). Kosm. nauka tehnol., 9 (4), 99—103 (2003) [in Russian].
16. Lyalko V. I., Sakhatsky O. I., Zholobak G. M. Features forecasting yields for many crops spectral remote sensing data. In: Multispectral remote sensing in nature management, Ed.by V.I. Lyalko, M.O. Popov, 176— 191 (Nauk.dumka, Kyiv, 2006) [in Ukrainian].
17. Lyal’ko V. I., Sakhats’kyi O. I., Zholobak G. M., Grekov L. D. The control over areas and the condition of winter crops by using MODIS/TERRA and SPOT XI images (by example of the Kyiv region). Reports of the National Academy of Sciences of Ukraine, No.3, 122—127 (2007) [in Ukrainian].
18. Lyal’ko V. I., Sakhatskyy O. I., Zholobak G. M., Vakolyuk M. V. Aerospace control over sowing of winter rape – raw material for biodiesel. Visnyk NAN Ukrai'ny, No. 12, 13—22 (2009) [in Ukrainian].
19. Methodical instructions for carrying out of ground surveillance on the aerospace landfills of Ukraine with remote sensing of agrarian resources, 72 p. (UkrNIPTI «Agroresursy», Kiev, 1994) [in Russian].
20. Muratova N. R., Terekhov A. G. Experience five years of operational monitoring of agricultural lands of Northern Kazakhstan by means of satellite data. In: Current problems in remote sensing of the Earth from space [Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa]: Proceedings, is. 4, vol. II, 277—283 (OOO «Azbuka-2000», Moscow, 2007) [in Russian].
21. Myasnikovich M. V., Tuzikov A. V., Butkin G. A., et al. National Space Program of the Republic Belarus. In: Proc. of the 4th Belarus Space Congress (Minsk, 2009) [in Russian]. Available:
http://uiip.bas-net.by/kosmos4/program.html
22. Pakshyn M. Yu., Bilan I. I., Gavrylyuk V. B., Vakhnyak V. S. Forecasting of winter wheat yields for space images. Zb. nauk. prac' Chernivec'kogo un-tu, Is. 360, 176—184 (2007) [in Ukrainian].
23. Application of methods of remote diagnostics in agriculture: Sb. nauch. tr., 152 p. (Nauk. dumka, Kiev, 1989) [in Russian].
24. Sakhatsky O. I., Zholobak G. M., Makarova H. A., et al. Land cover classification for the monitoring of winter grain crops within the Kyiv oblast and Mykolaiv oblast (Ukraine) with the use of MODIS data. Kosm. nauka tehnol., 15 (5), 16—23 (2009) [in Ukrainian].
https://doi.org/10.15407/knit2009.05.016
https://doi.org/10.15407/knit2009.05.016
25. Syrotenko O. V. Selective survey of crops under space debris data. In: Mozhlyvosti dystancijnogo zonduvannja Zemli ta geoinformacijnyh tehnologij u vyrishenni problem Kyi'vshhyny: Tez. dop. region. narady. (Kyiv, March 20—21, 2007) [in Ukrainian]. Available:
http://www.pryroda.gov.ua/ua/index.php?newsid=704
26. Sultangazin U. M., Muratova N. R., Terekhov A. G. Use of satellite monitoring in planning and forecasting the parameters of cereal production. In: Current problems in remote sensing of the Earth from space [Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa]: Proceedings, 291—297 (Poligraf servis, Moscow, 2004) [in Russian].
Available: www.iki.rssi.ru/earth/trudi/1-28.pdf
27. Tarariko O. H., Syrotenko A. V., Voloshin V. I., et al. The using of space technologies in agriculture complex of Ukraine. Visnyk agrarnoyi nauky [Bulletin of Agricultural Science], No.7, 5—9 (2007) [in Ukrainian].
28. Tolpin V. A., Bartalev S. A., Efremov V. Yu., et al. Capabilities of the information server SDMZ APK. In: Current problems in remote sensing of the Earth from space [Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa]: Proceedings, 7 (2), 221—230 (OOO «DoMira», Moscow, 2010) [in Russian].
Available: http://d33.infospace.ru/d33_conf/sb-2010t2/221-230.pdf
29. Shadchina T. M. Scientific bases of remote monitoring of grain crops state, 220 p. (Phytosociocentre, Kiev, 2001) [in Ukrainian].
30. Shevchenko A. O. System research and cybernetization of technological solutions in agriculture. In: Systemni doslidzhennja ta modeljuvannja v zemlerobstvi, 3—17 (Nyva, Kiev, 1998) [in Ukrainian].
31. Baruth B., Royer A., Klisch A., Genovese G. The use of remote sensing within the MARS crop yield monitoring system of the European Commission. The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 37, Pt. B8, 935—940 (Beijing, 2008).
32. Lyalko V. I., Sakhatsky A. I., Hodorovsky A. Ya., et al. The Experience of Application of AVHRR NOAA and Landsat-7 data for cereal crop yield forecasting. Geoinformation for European-wide Integration, 567—572 (Millpress, Rotterdam, 2003).