Voir la notice de l'article provenant de la source Math-Net.Ru
@article{IZKAB_2017_6-2_a23,
author = {V. V. Serebrenny},
title = {Structure and algorithms of functioning of control},
journal = {News of the Kabardin-Balkar scientific center of RAS},
pages = {210--220},
publisher = {mathdoc},
number = {6-2},
year = {2017},
language = {ru},
url = {http://geodesic.mathdoc.fr/item/IZKAB_2017_6-2_a23/}
}
V. V. Serebrenny. Structure and algorithms of functioning of control. News of the Kabardin-Balkar scientific center of RAS, no. 6-2 (2017), pp. 210-220. http://geodesic.mathdoc.fr/item/IZKAB_2017_6-2_a23/
[1] O. V. Inshakov, I. V. Sharkevich, A. V. Shevandrin, “Analiz strukturnykh izmenenii i perspektiv razvitiya regionalnykh ekonomicheskikh sistem”, Vestnik volgogradskogo gosudarstvennogo universiteta, 2006, 56–67
[2] L. V. Korshunov, E. I. Rogovskii, Yu. A. Bugai, “Rol agrarno orientirovannykh territorii v formirovanii prodovolstvennoi bezopasnosti RF”, Ekonomika regiona, 2014, 215–226
[3] A. V. Kalyaev, V. P. Noskov, Yu. V. Chernukhin, I. A. Kalyaev, Odnorodnye upravlyayuschie struktury adaptivnykh robotov, Nauka, M., 1990, 147 pp.
[4] V. P. Noskov, I. V. Rubtsov, “Opyt resheniya zadachi avtonomnogo upravleniya dvizheniem mobilnykh robotov”, Mekhatronika, avtomatizatsiya, upravlenie, 2005, no. 12, 21–24, Novye tekhnologii, M.
[5] N. A. Lakota, V. P. Noskov, I. V. Rubtsov, Ya. O. Lundgren, F. Mur, “Opyt ispolzovaniya elementov iskusstvennogo intellekta v sisteme upravleniya tsekhovogo transportnogo robota”, Mekhatronika, 2000, no. 4, 44–47, Izdatelstvo «Mashinostroenie»
[6] Kharakteristiki kompyutera Intel NUC, na ofitsialnom saite kompanii Intel (data obrascheniya: 16.06.2017) https://ark.intel.com/ru/products/76978/Intel-NUC-Kit-D34010WYKs
[7] Kharakteristiki sensora ASUS Xtion PRO LIVE, na ofitsialnom saite kompanii ASUS (data obrascheniya: 16.06.2017) https://www.asus.com/3D-Sensor/Xtion_PRO_LIVE/specifications/
[8] Ofitsialnyi sait proekta OpenNI (data obrascheniya: 16.06.2017) http://openni.ru/about/index.html
[9] A. V. Vazaev, V. P. Noskov, I. V. Rubtsov, S. G. Tsarichenko, “Raspoznavanie ob'ektov i tipov opornoi poverkhnosti po dannym kompleksirovannoi sistemy tekhnicheskogo zreniya”, Izvestiya YuFU. Tekhnicheskie nauki, 2016, no. 2 (175), 127–139
[10] Ludek Zalud, Petra Kocmanova, “Fusion of Thermal Imaging and CCD Camera-based Data for Stereovision Visual Telepresence”, IEEE International Symposium, Safety, Security, and Rescue Robotics (SSRR), 2013
[11] V. P. Noskov, I. E. Metasov, M. A. Shereuzhev, “Postroenie karty prokhodimosti vneshnei sredy po dannym sistemy tekhnicheskogo zreniya mobilnogo robota”, Sbornik dokladov po itogam konferentsii «Buduschee mashinostroeniya», no. 9, 2016, 680–684
[12] Yu. Kh. Khamukov, L. Z. Shautsukova, M. A. Shereuzhev, E. V. Kuliev, “Perspektivy robotizatsii riteilerskoi deyatelnosti”, Izvestiya Kabardino-Balkarskogo nauchnogo tsentra RAN, 2016, no. 6 (74), 81–87