Unmanned Aerial Vehicle Swarming

被引:5
|
作者
Refaat Ragab, Ahmed [1 ]
Ale Isaac, Mohammad Sadeq [2 ]
Luna, Marco A. [2 ]
Flores Pena, Pablo [3 ]
机构
[1] Univ Carlos III, Madrid, Spain
[2] Univ Politecn Madrid, Madrid, Spain
[3] Drone Hopper Co, Madrid, Spain
来源
2021 7TH INTERNATIONAL CONFERENCE ON ENGINEERING AND EMERGING TECHNOLOGIES (ICEET 2021) | 2021年
基金
欧盟地平线“2020”;
关键词
UAV; FANET; Swarming; FASTER; Drone Hopper; COMMUNICATION;
D O I
10.1109/ICEET53442.2021.9659698
中图分类号
TP18 [人工智能理论];
学科分类号
081104 ; 0812 ; 0835 ; 1405 ;
摘要
Unmanned Aerial Vehicles (UAVs) is a special case of the ad-hoc network, as it is categorized from the Flying ad-hoc network (FANET), which is a subcategory from the ad-hoc network. The massive widely used applications for UAVs through the variety of missions leads the researchers to deep through enhancing such systems by equipping different technologies and techniques for UAVs. Adding swarming facilities for UAVs was our case research interest in Drone Hopper research center, to gain the accurate and powerful usage through a swarm of drones to be used in different applications such as firefighting and agriculture. In this paper, a perspective study for UAVs swarming is highlighted through the FASTER project, under H2020 Grant Agreement 833507, showing the problems that face such techniques and technologies, and giving a clear accurate solution.
引用
收藏
页码:345 / 350
页数:6
相关论文
共 50 条
  • [21] Control System of Unmanned Aerial Vehicle
    Filatov, D. M.
    Deviatkin, A. V.
    Minav, T. A.
    Fridrix, A. I.
    [J]. PROCEEDINGS OF THE XIX IEEE INTERNATIONAL CONFERENCE ON SOFT COMPUTING AND MEASUREMENTS (SCM 2016), 2016, : 117 - 119
  • [22] Unmanned aerial vehicle navigation and mapping
    Lazarus, S. B.
    Tsourdos, A.
    Silson, P.
    White, B.
    Zbikowski, R.
    [J]. PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART G-JOURNAL OF AEROSPACE ENGINEERING, 2008, 222 (G4) : 531 - 548
  • [23] On Resource Overbooking in an Unmanned Aerial Vehicle
    de Niz, Dionisio
    Wrage, Lutz
    Storer, Nathaniel
    Rowe, Anthony
    Rajkumar, Ragunathan
    [J]. 2012 IEEE/ACM THIRD INTERNATIONAL CONFERENCE ON CYBER-PHYSICAL SYSTEMS (ICCPS 2012), 2012, : 97 - 106
  • [24] Design of Quadrotor Unmanned Aerial Vehicle
    Wu, Mofei
    Cheng, Zhigang
    Yang, Lin
    Xu, Lamei
    [J]. INTELLIGENT ROBOTICS AND APPLICATIONS, ICIRA 2017, PT III, 2017, 10464 : 25 - 34
  • [25] UNMANNED AERIAL VEHICLE IN CADASTRAL APPLICATIONS
    Manyoky, M.
    Theiler, P.
    Steudler, D.
    Eisenbeiss, H.
    [J]. INTERNATIONAL CONFERENCE ON UNMANNED AERIAL VEHICLE IN GEOMATICS (UAV-G), 2011, 38-1 (C22): : 57 - 62
  • [26] Testing unmanned aerial vehicle airfoils
    Lee, T
    Birch, D
    Gerontakos, P
    [J]. IEEE INSTRUMENTATION & MEASUREMENT MAGAZINE, 2004, 7 (03) : 32 - 37
  • [27] Unmanned Aerial Vehicle for Rescue and Triage
    Mora Arias, Darwin Armando
    Ortega Castro, Juan Carlos
    Flores-Vazquez, Carlos
    Icaza, Daniel
    Cobos-Torres, Juan-Carlos
    [J]. APPLIED TECHNOLOGIES (ICAT 2019), PT II, 2020, 1194 : 502 - 516
  • [28] Navigation and Control for an Unmanned Aerial Vehicle
    Fang, Jiahao
    Ye, Xin
    Dong, Wei
    Sheng, Xinjun
    Zhu, Xiangyang
    [J]. INTELLIGENT ROBOTICS AND APPLICATIONS, ICIRA 2016, PT I, 2016, 9834 : 373 - 383
  • [29] The WITAS unmanned aerial vehicle project
    Doherty, P
    Granlund, G
    Kuchcinski, K
    Sandewall, E
    Nordberg, K
    Skarman, E
    Wiklund, J
    [J]. ECAI 2000: 14TH EUROPEAN CONFERENCE ON ARTIFICIAL INTELLIGENCE, PROCEEDINGS, 2000, 54 : 747 - 755
  • [30] Aeroacoustic analysis of an unmanned aerial vehicle
    Lysak, Peter D.
    Dreyer, James J.
    Fahnline, John B.
    Capone, Dean E.
    Poremba, John E.
    [J]. PROCEEDINGS OF THE ASME INTERNATIONAL MECHANICAL ENGINEERING CONGRESS AND EXPOSITION 2007, VOL 8, PTS A AND B: HEAT TRANSFER, FLUID FLOWS, AND THERMAL SYSTEMS, 2008, : 1711 - 1719
12345