Geodesic
Robotized technology
News of the Kabardin-Balkar scientific center of RAS, no. 6-2 (2017), pp. 102-108.

Voir la notice de l'article provenant de la source Math-Net.Ru

Increasing the efficiency of chemical treatment of plants is an urgent problem of intensive industrial horticulture. The study of the problem from the positions of robotics and modern approaches in information and control systems made it possible to obtain new technological and technical solutions for creating an unpopulated technology for plant care, including chemical treatment of plants using mobile robots and unmanned aerial vehicles.
Keywords: agricultural robotics, resource saving, chemical processing of plants, precision farming, unpopulated technologies.
Mots-clés : horticulture, plant protection, mini-aviation, UAV 
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A. U. Zammoev. Robotized technology. News of the Kabardin-Balkar scientific center of RAS, no. 6-2 (2017), pp. 102-108. http://geodesic.mathdoc.fr/item/IZKAB_2017_6-2_a11/

[1] Ofitsialnyi sait produkta BPLA R-MAX firmy Yamaha http://rmax.yamahamotor.com.au/

[2] Ken Giles, Testing Unmanned Helicopters for Pesticide Spraying in California http://www. uasvision.com/2013/06/10/testing-unmanned-helicopters-for-pesticide-spraying-in-california/

[3] R. A. Balkarov, A. U. Zammoev, A. N. Medovnik, S. Tverdokhlebov, “A Osnovy proektirovaniya blochno-modulnykh mashin dlya gornogo i predgornogo sadovodstva i nekotorye perspektivy razrabotki”, Politematicheskii setevoi elektronnyi nauchnyi zhurnal Kubanskogo gosudarstvennogo agrarnogo universiteta, 2014, no. 97, 294–309, Kubanskii gosudarstvennyi agrarnyi universitet, Krasnodar

[4] A. V. Timofeev, R. M. Yusupov, Z. V. Nagoev, “Problemy i metody intellektualnogo upravleniya dvizheniem multiagentnykh robototekhnicheskikh sistem”, sbornik «Avtomatizatsiya upravleniya i intellektualnye sistemy i sredy», Materialy vtoroi Mezhdunarodnoi konferentsii, posvyaschennoi 15-letiyu Instituta informatiki i problem regionalnogo upravleniya KBNTs RAN, 2011, 100–108

[5] Buduschee robototekhniki: samosobirayuschiesya modulnye roboty http://www.zobot.ru/budushhee-robototehniki-samosobirayushhiesya-modulnye-roboty/

[6] A. U. Zammoev, Avtomatizirovannyi kompleks ustroistv dlya ukhoda za plantatsiei rastenii i sposob ukhoda za plantatsiei rastenii, Patent RF # 2477037 (Prioritet ot 01.06.2011 g.)

[7] A. U. Zammoev, Raspylitel zhidkosti, Patent RF #2585845 ot 06.04.2015 g.

[8] A. U. Zammoev, Robototekhnicheskii kompleks dlya avtomatizirovannoi aviatsionnoi khimicheskoi obrabotki rastenii i sposob ego primeneniya, Patent RF # 2586142 ot 06.04.2015 g.