Aerospace monitoring in solving problems of modern precision agriculture
Mots-clés :
Aerospace monitoring, agricultural management, environmental monitoring, nanosatellites, precision agriculture, remote sensingRésumé
The article is devoted to the problems of modern agricultural management development. The authors pay special attention to the use of aerospace monitoring systems in solving the problems of precision agriculture.
A logistic analysis was carried out to identify the most effective means of aerospace monitoring for the precision agriculture development.
The innovative trends in the development of the Earth’s modern space sensing are investigated, and recommendations on the use of mini-, micro - and nanosatellites in modern agricultural management are formulated.
Téléchargements
Les données relatives au téléchargement ne sont pas encore disponibles.
Références
Balabanov, VI, Zhelezova, SV, Berezovsky, EV,
Belenkov, AI & Egorov, VV (2013). Navigation systems in agriculture. Coordinate farming. Under the general editing of the professor Balabanova V.I. approved by Teaching and Methodical Association on agronomic education, Moscow: Publishing House of Russian Timiryazev State Agrarian University.
Chernyavsky, GM (2004). Space tools for monitoring the Earth. Earth and Universe, 5, 3-12.
Makarenko, AV & Sorokin AE (2017). Model of influence of power line elements on power efficiency of mechatronic modules for advanced mobile objects. Russian Aeronautics, 60 (1), 128-133.
Metechko, LB, Datsyuk, MM & Vostrikova, SM (2017). Aerospace remote sensing in environmental monitoring. Education Guidance. Moscow: MAI, 4(5).
Metechko, LB & Sorokin, AE (2018). Cluster strategy for eco-innovation at manufacturing enterprises. Russian Engineering Research. 38(4), 316-319.
Metechko, LB, Sorokin, AE & Novikov, SV (2016). Introduction to the ecology of the aerospace industry. Book, Kaluga: Eidas Publishing House.
Metechko, LB, Sorokin, AE, Tikhonov, AI & Novikov, SV (2017). The Epoch of Three “E” and Possible Traditions of Development. Moscow Aviation Journal, 4.
Novikov, SV (2018). Strategic Analysis of the Development of High-Technology Manufacturing Facilities. Russian Engineering Research, 38(3), 198-200.
Novikov, SV & Veas Iniesta, DS (2018). State regulation of the development of the connectivity of the Russian territory. Espacios, 39(45), 8.
Novikov, SV (2018). The features of innovative processes in the Russian Federation: Analysis of current practices. Espacios, 39(39), 10.
Petrukovich, AA & Nikiforov, OV (2016). Small satellites for space research, Rocket-space instrument making and information systems, 4, 22-31.
Sorokin, AE, Bulychev, SN, Novikov, SV & Gorbachev, SI (2019). Information Science in Occupational Safety Management. Russian Engineering Research, 39(4), 324–329.
Sutyrina, EN (2013). Remote sensing of the earth, Education Guidance, Irkutsk: ISU Publishing House.
Tokolova, AA (2016). Clusters as a form of agro-industrial complex integration. Young Scientist, 6(5), 135-137.
Yakushev, VV (2016). Precision agriculture: theory and practice. SPb.: Federal state budgetary research institution "Agro-physical scientific research institute”, 364.
Belenkov, AI & Egorov, VV (2013). Navigation systems in agriculture. Coordinate farming. Under the general editing of the professor Balabanova V.I. approved by Teaching and Methodical Association on agronomic education, Moscow: Publishing House of Russian Timiryazev State Agrarian University.
Chernyavsky, GM (2004). Space tools for monitoring the Earth. Earth and Universe, 5, 3-12.
Makarenko, AV & Sorokin AE (2017). Model of influence of power line elements on power efficiency of mechatronic modules for advanced mobile objects. Russian Aeronautics, 60 (1), 128-133.
Metechko, LB, Datsyuk, MM & Vostrikova, SM (2017). Aerospace remote sensing in environmental monitoring. Education Guidance. Moscow: MAI, 4(5).
Metechko, LB & Sorokin, AE (2018). Cluster strategy for eco-innovation at manufacturing enterprises. Russian Engineering Research. 38(4), 316-319.
Metechko, LB, Sorokin, AE & Novikov, SV (2016). Introduction to the ecology of the aerospace industry. Book, Kaluga: Eidas Publishing House.
Metechko, LB, Sorokin, AE, Tikhonov, AI & Novikov, SV (2017). The Epoch of Three “E” and Possible Traditions of Development. Moscow Aviation Journal, 4.
Novikov, SV (2018). Strategic Analysis of the Development of High-Technology Manufacturing Facilities. Russian Engineering Research, 38(3), 198-200.
Novikov, SV & Veas Iniesta, DS (2018). State regulation of the development of the connectivity of the Russian territory. Espacios, 39(45), 8.
Novikov, SV (2018). The features of innovative processes in the Russian Federation: Analysis of current practices. Espacios, 39(39), 10.
Petrukovich, AA & Nikiforov, OV (2016). Small satellites for space research, Rocket-space instrument making and information systems, 4, 22-31.
Sorokin, AE, Bulychev, SN, Novikov, SV & Gorbachev, SI (2019). Information Science in Occupational Safety Management. Russian Engineering Research, 39(4), 324–329.
Sutyrina, EN (2013). Remote sensing of the earth, Education Guidance, Irkutsk: ISU Publishing House.
Tokolova, AA (2016). Clusters as a form of agro-industrial complex integration. Young Scientist, 6(5), 135-137.
Yakushev, VV (2016). Precision agriculture: theory and practice. SPb.: Federal state budgetary research institution "Agro-physical scientific research institute”, 364.
Téléchargements
Publiée
2019-04-29
Comment citer
Metechko, L. B., Sorokin, A. E., & Novikov, S. V. (2019). Aerospace monitoring in solving problems of modern precision agriculture. Amazonia Investiga, 8(19), 638–646. Consulté à l’adresse https://amazoniainvestiga.info/index.php/amazonia/article/view/279
Numéro
Rubrique
Articles
.gif)
