UTM City-Visualization of Unmanned Aerial Vehicles

被引:4
|
作者
Westberg, Jimmy Johansson [1 ]
Palmerius, Karljohan Lundin [2 ]
Lundberg, Jonas [3 ]
机构
[1] Linkoping Univ, Informat Visualizat, S-60209 Norrkoping, Sweden
[2] Linkoping Univ, Visualizat & Media Technol, S-60209 Norrkoping, Sweden
[3] Linkoping Univ, Human Ctr Design, S-60209 Norrkoping, Sweden
来源
IEEE COMPUTER GRAPHICS AND APPLICATIONS | 2022年 / 42卷 / 05期
关键词
Visualization; Traffic control; Urban areas; Process control; Aerospace electronics; Autonomous aerial vehicles;
D O I
10.1109/MCG.2022.3193160
中图分类号
TP31 [计算机软件];
学科分类号
081202 ; 0835 ;
摘要
In this article, we present a digital platform for unmanned traffic management, UTM City, for research on visualization, simulation, and management of autonomous urban vehicle traffic. Such vehicles orient themselves automatically and provide services ranging from transport to remote presence and surveillance, and new regulations and standards for authorization and monitoring are currently being developed to accommodate for such services. Our system has been developed in close collaboration with domain experts that have contributed with scenarios and participated in numerous workshops to explore the use of visualization in airborne drone traffic monitoring, management, and development of the air space. We share here our experiences with this system and explore the need for visualization in future scenarios to ensure safe, free, and efficient air spaces.
引用
收藏
页码:84 / 89
页数:6
相关论文
共 50 条
  • [1] The Role of 'Unmanned Aerial Vehicles' in Smart City Planning and Management
    Raman, Rewati
    Datta, Ushnata
    [J]. PROCEEDINGS OF UASG 2021: WINGS 4 SUSTAINABILITY, 2023, 304 : 99 - 120
  • [2] Human operator and unmanned aerial vehicles control in the smart city
    Velichkovsky, B. B.
    Sokolova, D. N.
    [J]. VOPROSY PSIKHOLOGII, 2022, 68 (06) : 46 - +
  • [3] Unmanned Aerial Vehicles Conflict Detection and Resolution in City airspace
    Yang, Jian
    Yin, Dong
    Niu, Yifeng
    Zhu, Lei
    [J]. 2015 IEEE INTERNATIONAL CONFERENCE ON ROBOTICS AND BIOMIMETICS (ROBIO), 2015, : 2436 - 2441
  • [4] UNMANNED AERIAL VEHICLES
    TREGO, L
    [J]. AEROSPACE ENGINEERING, 1994, 14 (03) : 15 - 15
  • [5] Unmanned aerial vehicles
    Scarpa, F
    [J]. AIRCRAFT ENGINEERING AND AEROSPACE TECHNOLOGY, 2001, 73 (04): : 401 - 402
  • [6] Unmanned aerial vehicles
    [J]. Aerospace Engineering (Warrendale, Pennsylvania), 1994, 14 (03):
  • [7] Unmanned aerial vehicles
    Braatz, Richard D.
    [J]. IEEE Control Systems, 2012, 32 (05) : 8 - 9
  • [8] Reusable Design of Data Visualization Software Architecture for Unmanned Aerial Vehicles
    Jovanovic, Mladan
    Starcevic, Dusan
    Jovanovic, Zoran
    [J]. JOURNAL OF AEROSPACE INFORMATION SYSTEMS, 2014, 11 (06): : 359 - 371
  • [9] Visualization of schistosomiasis snail habitats using light unmanned aerial vehicles
    Chamberlin, Andrew J.
    Jones, Isabel J.
    Lund, Andrea J.
    Jouanard, Nicolas
    Riveau, Gilles
    Ndione, Raphael
    Sokolow, Susanne H.
    Wood, Chelsea L.
    Lafferty, Kevin D.
    De Leo, Giulio A.
    [J]. GEOSPATIAL HEALTH, 2020, 15 (02) : 382 - 385
  • [10] Aerial Robotics and Unmanned Aerial Vehicles
    Ollero, Anibal
    Valavanis, Kimon
    Chen, Yangquan
    [J]. IEEE ROBOTICS & AUTOMATION MAGAZINE, 2018, 25 (04) : 96 - 97
12345