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References
Оглавление1. Guilmartin, John F. Unmanned aerial vehicle. Encyclopedia Britannica, 15 July 2020, https://www.britannica.com/technology/unmanned-aerial-vehicle.Accessed 31 March 2021.
2. Sharma, A., Basnayaka, C.M.W., Jayakody, D.N.K., Communication and networking technologies for UAVs: A survey. J. Netw. Comput. Appl., 168, 102739, May 2020.
3. Drones Importance and Usage in Real Estate. https://www.ifsec.events/india/visit/news-and-updates/drones-importance-and-usage-real-estate.Accessed 31 March 2021.
4. Cai, G., Dias, J., Seneviratne, L., A Survey of Small-Scale Unmanned Aerial Vehicles: Recent Advances and Future Development Trends. Unmanned Syst., 2, 2, 175–199, 2014.
5. Pham, H., Smolka, S.A., Stoller, S.D., Phan, D., Yang, J., A survey on unmanned aerial vehicle collision avoidance systems. CoRR, abs/1508.07723, 2015.
6. Hackney, C. and Alexander, C., 2.1.7. Unmanned Aerial Vehicles (UAVs) and their application in geomorphic mapping. In, Geomorphological Techniques. L. Clarke, and J. M. Nield, (Eds.), British Society for Geomorphology, London, GB, 2015.
7. Types of Drones – Explore the Different Models of UAV’s. Circuit Today. https://www.circuitstoday.com/types-of-drones. Accessed on 31 March 2021.
8. Types of Drones, https://www.aircraftcompare.com/blog/types-of-drones/Accessed on 31 March 2021.
9. Drone types: multi-rotor vs fixed-wing vs single rotor vs hybrid VTOL. https://www.auav.com.au/articles/drone-types/ Accessed on 31 March 2021.
10. Types of military drones: The best technology available today, By Jack Brown. https://www.mydronelab.com/blog/types-of-military-drones.html Accessed on 31 March 2021.
11. Weibel, R.E., Safety Considerations for Operation of Different Classes of Unmanned Aerial Vehicles in the National Airspace System (PDF), p. 15, 38, 39, 43, 77, Massachusetts Institute of Technology, 2002, https://www.leonardocompany.com/en/products/falco-xplorer.
12. Pomerleau, M., Future of unmanned capabilities: Male vs Hale. MAY 27, 2015. https://defensesystems.com/articles/2015/05/27/uas-male-vs-hale-debate.aspx Accessed on 31 March 2021.
13. Sanz Subirana, J., Juan Zornoza, J.M., Hernandez-Pajares, M., University of Catalunia, Spain. GNSS signal, 2011. https://gssc.esa.int/navipedia/index.php/GNSS_signal
14. Global positioning system wide area augmentation system (WAAS) performance standard, 31 October 2008. https://www.gps.gov/technical/ps/2008-WAAS-performance-standard.pdf Accessed on 31 March 2021.
15. Andrei, I., Niculescu, M., Pricop, M., Cernat, A., Study of the turbojet engines as propulsion systems for the unmanned aerial vehicles. Sci. Res. Educ. Air Force, 18, 115–126, 2016.
16. Gupta, S.G., Ghonge, M.M., and Jawandhiya, P.M., Review of Unmanned Aircraft System (UAS). Int. J. Adv. Res. Comput. Eng. Techol. (IJARCET), 2, 4, 1646–1658, April 2013.
17. Security and drones — what you need to know. Kaspersky. https://www.kaspersky.co.in/resource-center/threats/can-drones-be-hacked. Accessed on 31 March 2021.
18. Rodday, N., Hacking a Professional Drone, Black Hat Asia, 2016. https://www.blackhat.com/docs/asia-16/materials/asia-16-Rodday-Hacking-A-Profes-sional-Drone.pdf. Accessed on 31 March 2021.
19. Corrigan, F., How do drones work and what is drone technology, October 1, 2020. https://www.dronezon.com/learn-about-drones-quadcopters/what-is-drone-technology-or-how-does-drone-technology-work/. Accessed on 31 March 2021.
20. Remotely Piloted Aircraft System (RPAS) Concept of operations (CONOPS) for International IFR Operations. ICAO. https://www.icao.int/safety/UA/Documents/ICAO%20RPAS%20Concept%20of%20Operations.pdf.Accessed on 31 March 2021.
21. Report ITU-R M.2171, Characteristics of unmanned aircraft systems and spectrum requirements to support their safe operation in non-segregated airspace, p. 48, International Telecommunication Union (ITU), 12/2009.
22. Report ITU-R M.2171, Characteristics of unmanned aircraft systems and spectrum requirements to support their safe operation in non-segregated airspace, p. 3, 4, International Telecommunication Union (ITU), 12/2009.
23. Report ITU-R M.2171, Characteristics of unmanned aircraft systems and spectrum requirements to support their safe operation in non-segregated airspace, p. 10,11, International Telecommunication Union (ITU), 12/2009.
24. Drozd, A.L., Spectrum-Secure Communications for Autonomous UAS/UAV Platforms, ANDRO, Computational Solutions, LLC Advanced Applied Technology Division Rome, NY.
25. The Road to 5G: Drivers, Applications, Requirements and Technical Development, Huawei. https://www.huawei.com/minisite/5g/img/GSA_the_Road_to_5G.pdf, November 2015. Accessed 31 March 2021.
26. Mishra, D., A Survey on cellular-connected UAVs: Design Challenges, Enabling 5G/B5G Innovations, and Experimental Advancements, Enrico Natalizio Université de Lorraine, CNRS, LORIA, France.
27. NATO Parliamentary Assembly, Unmanned Aerial Vehicles: Opportunities and Challenges for the Alliance, p. 2,3,8, Special Report, Pierre Claude Nolin (Canada), Special Rapporteur, International Secretariat, November 2012.
28. NATO Parliamentary Assembly, Unmanned Aerial Vehicles: Opportunities and Challenges for the Alliance, p. 8, Special Report, Pierre Claude Nolin (Canada), Special Rapporteur, International Secretariat, November 2012.
29. Sylvester, G. E-Agriculture in action: Drones for Agriculture, p. 112, Food and Agriculture Organization of the United Nations and International Telecommunication Union, Bangkok, 2018.
30. 10 Major Pros & Cons of Unmanned Aerial Vehicle (UAV) Drones. https://www.equinoxsdrones.com/blog/10-major-pros-cons-of-unmanned-aerial-vehicle-uav-drones. Accessed on 31 March 2021.
31. Yaacoub, J.P., Noura, H., Salman, O., Chehab, A., Security analysis of drones systems: Attacks, limitations, and recommendations. Internet of Things, 11, 100218. https://doi.org/10.1016/j.iot.2020.100218
32. NATO Parliamentary Assembly, Unmanned Aerial Vehicles: Opportunities and Challenges for the Alliance, p. 11, 12, Special Report, Pierre Claude Nolin (Canada), Special Rapporteur, International Secretariat, November 2012.
33. Pfeifer, C., Barbosa, A., Osama M., Hans-Ulrich, P., Marie-Charlott, R., and Alexander B. Using Fixed-Wing UAV for Detecting and Mapping the Distribution and Abundance of Penguins on the South Shetlands Islands, Antarctica. Drones, 3, 2, 39, 2019. https://doi.org/10.3390/drones3020039.
34. Connect ESCs and Motors. https://ardupilot.org/copter/docs/connect-escs-and-motors.html Accessed on 31 March 2021.
35. Yinka-Banjo, C. and Ajayi, O., Sky-Farmers: Applications of Unmanned Aerial Vehicles (UAV) in Agriculture, Autonomous Vehicles, 2019.
36. V-22-osprey-fleet-tops-40000-flight-hours. 19 Dec. 2017. www.helicopter-industry.com, 19 Dec’2017, www.helicopter-industry.com/2017/12/19/v-22-osprey-fleet-tops-40000-flight-hours/.
37. RQ-11B Raven Small Unmanned Aircraft Systems (SUAS). U.S. Army, November 4, 2014. https://www.army.mil/article/137604/rq_11b_raven_small_unmanned_aircraft_systems_suas Accessed on 31 March 2021.
38. Saldivar, J., Grand Forks AFB Airmen welcome Global Hawk. Af.mil, U.S Air Force, www.af.mil/News/Photos/igphoto/2000250415/, 26 May 2011.
39. Sakharkar, A., New software for improved and accurate drone mapping. 22 May 2020, https://www.techexplorist.com/new-software-improved-accurate-drone-mapping/32444/
40. Characteristics of unmanned aircraft systems and spectrum requirements to support their safe operation in non-segregated airspace, Report ITU-R M.2171 (12/2009). https://www.itu.int/en/ITU-R/space/snl/Documents/R-REP-M.2171-2009-PDF-E.pdf. Accessed on 31 March 2021.
1 *Corresponding author: vandanamohindru@gmail.com