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Modern agriculture involves the implementation of a particular technological operation, according to the appropriate map-task, which is developed pre-based on diverse information. Knowledge of a certain structure of soil cover variability, obtained using information and technical systems of local operational monitoring of the agrobiological state of agricultural lands, allows us to adopt effective operational decisions for efficient management of agrobiological potential of agricultural lands. Obviously, under such conditions, there is a need for fundamentally new approaches to agricultural production, which is to ensure the proper quality of technological operations. The quality of the implementation of technological operations is an integral indicator of the efficiency of production of agricultural products within the agrobiological field. The necessary quality of implementation of the basic technological processes in plant growing is provided by the integrated information and technical systems of operational monitoring of the agrobiological state of agricultural lands. In connection with this, the task is to use a fundamentally new class of information and technical systems of local operational monitoring of the agrobiological state of agricultural lands. The task is achieved by using the information and technical system of operational monitoring of the soil environment of the structure to determine the conductive characteristics of the soil environment. The purpose of this research is to develop and substantiate the functional structure, software, writing code and algorithms for managing the executive bodies of the information and technical system of operational monitoring of the agrobiological state of the soil environment of agricultural lands.
Czasopismo
Rocznik
Tom
Strony
28--41
Opis fizyczny
Bibliogr. 20 poz., rys.
Twórcy
autor
- IT and natural sciences department Kyiv Cooperative Institute of Business and Law
Bibliografia
- 1. Adamchuk V.V., Moiseenko V.К., Kravchuk V.І., Voituk D.G. 2002. Technique for future agriculture. In: Mechanization and electrification of agriculture.– Glevaha: NNTS„ІМЕСГ”. P.86. P. 20-32.
- 2. Brovarets O. 2016. From the wilderness to the global rational agriculture. Machinery and technology of agroindustrial complex. № 10 (85). С. 28 - 30.
- 3. Brovarets O.O. Information and technical system of operational monitoring of the soil environment made by Oleksandr Brovarets. Informational publication of Lviv National Agrarian University. Agroengineering research № 21. p. 9-29.
- 4. Vadunyna А.F. 1937. To the assessment of electrical conductivity as a method for determining soil moisture. Soil science. № 3. P. 391-404.
- 5. Vorobev N.I. 1955. To the question of conductometric determination of soil and soil salinity.Vorobev N.I. №4. P. 103.
- 6. SONT 26423-85. Soils Methods of determination of the specific electrical conductivity, pH and solid residue of aqueous extract. 7p.
- 7. Gukov Y.S., Lynnyk N.K., Myronenko V.G. 2001. Automated system of locally-dosage application of fertilizers, meliorants and plant protection products. Proceedings of the 2nd MNPK on the problems of differential application of fertilizers in the system of coordinate agriculture. Ryazan. p.48–50.
- 8. Kopikova L.P. 1979. Experience in the application of conductivity methods for the compilation of detailed soil-melioration maps. Bulletin of VIUA. Kopikova L.P. №43. p. 21-23.
- 9. Maslo І.P., Myronenko V.G. 1999. Automated system of locally-doped fertilizer and chemical plant protection products. UAAS: Development-production. K .: Agrarian Science. Pp.348-349.
- 10. Medvedev V.M. 2007. Inhomogeneity of soils and precision agriculture. Part I. Introduction to the problem. Kharkiv. 296 p.
- 11. Оrmagy K.S. 1991. Quality control of field work. M. Rosagropromizdat. 191p.
- 12. .К Kravchuk, М.І. Grytsyshyn, S.М. Koval. 2004. Modern trends in the development of agricultural machinery designs.According publication . V.І.. К.:Agrarian science. 398 p.
- 13. Brovarets O., Chovnyuk Yu. 2018. Modeling and analysis of efficient electromagnetic parameters of capillary system of electrical conductivity of agricultural soils i: method of analysis of non-stationary electromagnetic fields in dispersive and controlled environments. MOTROL. Vol. 19. No 4. p. 13- 18.
- 14. Brovarets O., Chovnyuk Y. 2017. Technical - economic models of business management in the processes of agricultural production. ECONTECHMOD. An international quarterly journal. Vol. 6. No. 3, 61-70.
- 15. Brovarets O., Chovnyuk Y. 2017. Integrated systems of management for the performance of technological processes in agricultural production which depend on the initial and final moments of their operation time. Teka.Vol. 17, No 2. p. 79 - 90.
- 16. Brovarets. O. 2017. Organizational and Technological Background of Project Configuration Management for Freighting. Teka. Vol. 17. No 3. p. 49 - 53.
- 17. Hertz A. Chad and John D. Hibbard. 1993. A Preliminary Assessment of the Economics of Variable Rate Technology for Applying Phosphorus and Potassium in Corn Production. Farm Economics iss. 14, Department of Agricultural Economics, University of Illinois, Champaign-Urbana. Pp. 218-231.
- 18. Wilcox G.G. 1947. Determination of electrical conductivity of soil solutions. Soil Science. Vol. 63. p. 107.
- 19. Ewart G.Y., Baver L.D. 1950. Salinity Effects on soil moisture electrical resistance relstionships. Soil Scien. Soc. Amer. Vol. 15. pp. 56-63.
- 20. Rhoades J.D., Schifgaarde J. Van. 1976. Soil Scien. Soc. Amer. J.An electrical conductivity probe for determining soil salinity. № 5. pp. 647-651.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-9eefe463-f245-460b-aeed-66b60ecf9ca9