Metrika

  • citati u SCIndeksu: [1]
  • citati u CrossRef-u:[1]
  • citati u Google Scholaru:[]
  • posete u poslednjih 30 dana:26
  • preuzimanja u poslednjih 30 dana:10

Sadržaj

članak: 4 od 9  
Back povratak na rezultate
2020, vol. 72, br. 3, str. 84-109
Modelovanje organizacione implementacije operatera za dronove i protivdronska dejstva u streljačko odeljenje Vojske Srbije
aUniverzitet odbrane, Vojna akademija, Beograd, Srbija
bSerbian Armed Forces, 1st Army Brigade
cUniverzitet odbrane, Beograd, Srbija

e-adresavinko.znidarsic@gmail.com, markoradovanovicgdb@yahoo.com
Projekat:
This research paper has been conducted as a part of the project funded by the Military Academy of the University of Defence in Belgrade, number: VA-DH/2/18-20: Podrška procesu donošenja vojnih odluka

Ključne reči: streljačko odeljenje; dron; protivdronsko dejstvo; dron-operator; komandovanje; mala taktička jedinica
Sažetak
Dronovi su jedna od novih pretnji taktičkim jedinicama. Oružane snage ih koriste sa promenjivim uspehom u operacijama, ali najniža taktička jedinica, kao što je streljačko odeljenje, nije još uvijek spremna da izvodi operacije u kojima bi upotrebilo dronove i protivdronske mere. Dronovi imaju širok spektar mogućnosti i koriste se kako za civilne tako i za vojne svrhe. Uporedo sa razvojem dronova, razvijaju se i sredstva za protivdronska dejstva. U prvom delu rezultata istraživanja predstavljeno je nekoliko malih bespilotnih letelica i protivdronskih sistema kojima može rukovati jedan čovek kako bi se pokazalo da postoji više od jednog sistema koji se može izabrati za operativnu upotrebu. To takođe pokazuje da je jedan vojnik u streljačkom odeljenju sposoban da rukuje sa dronskim i protivdronskim sistemima. Cilj ovog rada je da se istraži organizaciona struktura i utvrde organizacione mogućnosti da se dužnost operatera za dronove i protivdronska dejstva implementira u streljačko odeljenje. U tu svrhu istraživački tim je obavio niz intervjua sa oficirima i podoficirima Vojske Srbije i Ministarstva odbrane i ova dužnost je u radu definisana kao "dron operator" na primeru streljačkog odeljenja Vojske Srbije gde je modelovana da može biti dužnost 1) specijalizovanog strelca, 2) doobučenog snajperiste ili 3) dodatog vojnika.
Reference
*** (2016) Pravilo vojnik-odeljenje pešadije. Belgrade: KzO GŠ vs-Vojna štamparija
*** (2019) Kalashnikov creates new anti-drone gun. Army Recognition, 10 July, https://www.armyrecognition.com/weapons_defence_industry_military_technology_uk/ka lashnikov_creates_new_anti-drone_gun.html, 01/02/2020
*** (2019) Russians Have Made a Flying Rifle. English Russia, 28 March, https://englishrussia.com/2019/03/28/russians-have-made-a-flying-rifle/, 01/02/2020
*** RQ-11 Raven US Army Unmanned Aerial Vehicle. http://usaircraftpics.blogspot.com/2012/03/rq-11-raven-us-army-unmanned-aerial.html, 23/09/2020
*** Black Hornet Nano. https://upload.wikimedia.org/wikipedia/commons/thumb/e/ed/Black_Hornet_Nano_Helico pter_UAV.jpg/800px-Black_Hornet_Nano_Helicopter_UAV.jpg, 23/09/2020
*** Bayraktar Mini Unmanned Aerial Vehicle. https://www.armytechnology.com/projects/bayraktar-uav/bayraktar-uav1, 23/09/2020
*** Daljinski upravljana besposadna zemaljska platforma Miloš. PPT Namenska, http://www.ppt-namenska.rs/milos.html, 10/02/2020
*** Anti-Drone System. Hanvy, https://www.antidrone.cn/anti-drone-system/hand-heldanti-drone-gun.html, 01/02/2020
*** Skylock protecting your skies. cataloge, Anti-drone systems, https://www.skylock1.com/drone-detection/, 17/02/2020
Ainstein Drone Products Lineup. https://ainstein.ai/downloads/Datasheets/AINSTEIN_DRONEDATA.pdf, 17/02/2020
Ali, M., Mina, A. (2019) Houthi rebel drone targets senior officers at Yemen's Al Anad military base. National, 10 January, https://www.thenational.ae/world/mena/houthi-rebel-drone-targets-senior-officers-atyemen-s-al-anad-military-base-1.811544, 03/08/2019
Anti Drone SpotterRF C950 perimeter surveillance radar. https://anti-drone.eu/products/perimeter-surveillance-radars/spotterrf-c950.html, 17/02/2020
David, R. (2018) A swarm of armed drones attacked a Russian military base in Syria. SNBC, 11 january, https://www.cnbc.com/2018/01/11/swarm-of-armed-diydrones-attacks-russian-military-base-in-syria.html, 30/01/2020
David, R. (2019) Saudi Aramco reveals attack damage at oil production plants. SNBC, 21 September, https://www.cnbc.com/2019/09/20/oil-drone-attack-damagerevealed-at-saudi-aramco-facility.html, 14/02/2020
Digital Eagle QR-12 Drone Detection and Jamming System. https://www.digitaleagle-uav.com/QR-12-Drone-Detection-And-Jamming-Systempd41427376.html, 17/02/2020
Digital Eagle QR -MINI Drone Jammer Shield. https://www.digitaleagle-uav.com/QR-MINI-Drone-Jammer-Shield-pd6082290.html, 01/02/2020
Drone Shield Detect. Assess. Respond. https://www.droneshield.com/, 01/02/2020
DroneShield DroneNode. https://www.droneshield.com/dronenode, 01/02/2020
Foss, C.F. (2019) Serbia advances Milos UGV development. Jane's, 5 July, https://www.janes.com/article/89709/serbia-advances-milos-ugv-development, 01/02/2020
Grady, J. (2017) Panel: Services Should Better Leverage Each Other's Tech Development. USNI News - Joint Operations, 17 March, https://news.usni.org/2017/03/17/panel-services-better-leverage-others-techdevelopment-joint-operations, 01/02/2020
Hanvy Radar Drone Detection Introduction. https://www.antidrone.cn/anti-dronesystem/radar-drone-detection.html, 17/02/2020
Holland, M.A. (2019) Counter-drone system. New York: Center for the Study of the Drone at Bard College, 2 nd edition, 5-12
James, L. (2018) Contemporary Operating Environment: The Battle of Marawi: Small Team Lessons Learned for the Close Fight. The Cove, 26 November, https://cove.army.gov.au/article/the-battle-marawi-small-team-lessons-learned-the-closefight, 30/01/2020
Jenkins, B. (2018) We should fear the use of killer drones like in Venezuela. Independent, 11 August, https://www.independent.co.uk/voices/killer-dronesvenezuela-president-attack-uk-aircraft-warfare-isis-syria-a8487536.html,15/11/2019
Jović, Ž. (2017) Strategijski i legalni aspekti borbene upotrebe dronova u protiv terorističkim operacijama SAD. Vojno delo, vol. 69, br. 7, str. 468-480
Kosmanos, D., Karagiannis, D., Argyriou, A., Lalis, S., Maglaras, L. (2019) RF Jamming Classification using Relative Speed Estimation in Vehicular Wireless Networks. Computer Science, 1, pp. 1-10
Milić, A., Ranđelović, A., Radovanović, M. (2019) Use of drones in operations in the urban environment. u: International Scientific conference (5th) Safety and crisis management: Theory and practice: Safety for the future - SecMan, Belgrade: Regional Association for Security and Crisis Management, pp. 124-130
Mitka, E., Mouroutsos, S.G. (2017) Classification of Drones. American Journal of Engineering Research, Vol 6, 7, pp. 36-41
Nawalagatti, A., Tigadi, A.S. (2019) Anti-Drone System with Multiple Surveillance Technologies. International Journal of Engineering Science Invention, Vol. 8, May, pp. 36-41
Novichkov, N., Fediushko, D. (2019) Russia enters C-UAV domain. European Defense Review, 26 November, https://www.edrmagazine.eu/russia-enters-c-uav-domain, 01/02/2020
Roboteam MTGR is a Lightweight Combat Proven Tactical Robot. http://robo-team.com/products/mtgr/#s-6, 05/02/2020
Shi, X., Yang, C., Xie, W., Liang, C., Shi, Z., Chen, J. (2018) Anti-Drone System with Multiple Surveillance Technologies: Architecture, Implementation, and Challenges. IEEE Communications Magazine, 56(4): 68-74
Skylock 360º drone detection radar. https://www.skylock1.com/drone-detection/,17/02/2020
Sontani, R. (2019) Pishchal-PRO, Senapan Elektrik untuk Melumpuhkan Drone Berukuran Mini. Airspace Review, 4 December, https://www.airspace-review.com/2019/12/04/pishchal-pro-senapan-elektrik-untukmelumpuhkan-drone-berukuran-mini/, 17/02/2020
Stevanović, D., Isaijeva, O., Ranđelović, D., Terzić, M. (2019) Upotreba dronova u vojne svrhe. u: 14. Međunarodno savetovanje Rizik i bezbednosni inženjering - zbornik radova, Novi Sad: Visoka tehnička škola strukovnih studija, pp. 132-144
Žnidaršič, V., Karavidić, Z., Projović, D., Stevanović, D. (2019) Analysis of prescribed models of subordination in the Serbian Armed Forces firing section. Vojno delo, vol. 71, br. 4, str. 221-232
 

O članku

jezik rada: engleski
vrsta rada: pregledni članak
DOI: 10.5937/vojdelo2003084Z
primljen: 13.04.2020.
prihvaćen: 12.11.2020.
objavljen u SCIndeksu: 20.12.2020.

Povezani članci

Nema povezanih članaka