留言板

尊敬的读者、作者、审稿人, 关于本刊的投稿、审稿、编辑和出版的任何问题, 您可以本页添加留言。我们将尽快给您答复。谢谢您的支持!

姓名
邮箱
手机号码
标题
留言内容
验证码

基于系统分类和安全评估的无人机空域集成

蔡志浩 吴慧垚 王英勋

蔡志浩, 吴慧垚, 王英勋等 . 基于系统分类和安全评估的无人机空域集成[J]. 北京航空航天大学学报, 2013, 39(11): 1497-1502.
引用本文: 蔡志浩, 吴慧垚, 王英勋等 . 基于系统分类和安全评估的无人机空域集成[J]. 北京航空航天大学学报, 2013, 39(11): 1497-1502.
Cai Zhihao, Wu Huiyao, Wang Yingxunet al. Approach of UAS airspace integration based on systematic classification and level of safety assessment[J]. Journal of Beijing University of Aeronautics and Astronautics, 2013, 39(11): 1497-1502. (in Chinese)
Citation: Cai Zhihao, Wu Huiyao, Wang Yingxunet al. Approach of UAS airspace integration based on systematic classification and level of safety assessment[J]. Journal of Beijing University of Aeronautics and Astronautics, 2013, 39(11): 1497-1502. (in Chinese)

基于系统分类和安全评估的无人机空域集成

详细信息
  • 中图分类号: V249

Approach of UAS airspace integration based on systematic classification and level of safety assessment

  • 摘要: 无人机的空域集成,即无人机进入非隔离空域飞行与有人机共享空域,是未来发展的必然趋势,这也给空中交通管理带来了新的挑战.参照美国的空域集成计划,需要建立在空域详细分类的基础上,根据无人机的综合能力逐步实现无人机从单一空域到多空域,从隔离空域到非隔离空域的动态运行.而无人机的综合能力分类可以从体系划分和安全能力两个角度出发,综合衡量;其中,无人机体系基于自主能力和监管方式两个关键因素来划分.基于这种方法,分析可以初步确定一类无人机可以飞行的空域类型,以及跨越不同空域的方式,从而实现无人机空域集成.

     

  • [1] Loh R.Safety requirements for unmanned aerial vehicles (UAV) in future civil airspace[C]//Record-IEEE PLANS, Position Location and Navigation Symposium.2006:1151-1163
    [2] Burkle M W M T.The integrated airport-a NextGen testbed/[C]/Integrated Communications, Navigation, and Surveillance Conference 2008.2008:375-381
    [3] Ryan N, Van Dyk D H P R, Yacov Y, et al.Systems integration of unmanned aircraft into the national airspace:part of the federal aviation administration next generation air transportation system[C]//Proceedings of the 2012 IEEE Systems and InformationEngineering Design Symposium.2012:151-156
    [4] Euteneuer E A, George P.UAS insertion into commercial airspace:europe and US standards perspective[C]//30th Digital Avionics Systems Conference Closing the Generation Gap:Increasing Capability for Flight Operations among Legacy, Modern and Uninhabited Aircraft, DASC 2011.2011:1-11
    [5] Department of Defense, United States.Unmanned systems integrated roadmap FY2011-2036[R].2011
    [6] Weibel R E.Safety considerations for operation of different classes of UAVs in the NAS[C]//Collection of Technical Papers-AIAA 4th Aviation Technology, Integration, and Operations Forum, ATIO.2004:180-190
    [7] 陈宗基, 魏金钟, 王英勋, 等.无人机自主控制等级及其系统结构研究[J].航空学报, 2011, 32 (6):1075-1083 Chen Zongji, Wei Jinzhong, Wang Yingxun, et al.UAV autonomous control levels and system structure[J].Acta Aeronautica et Astronautica Sinica, 2011, 32 (6):1075-1083 (in Chinese)
    [8] European Organisation for the Safety of Air Navigation.Eurocontrol specifications for the use of military unmanned aerial vehicles as operational air traffic outside segregated airspace.2007
    [9] Simpson A J S J.Safety challenges in flying UAVs (unmanned aerial vehicles) in non-segregated airspace[C]//The 1st Institution of Engineering and Technology International Conference.2006:81-88
    [10] Dalamagkidis K V K P.Evaluating the risk of unmanned aircraft ground impacts[C]//Control and Automation, 2008 16th Mediterranean Conference on 2008.2008:709-716
    [11] Clothier R A W R.A casualty risk analysis for unmanned aerial system (UAS) operations over inhabited areas[C]//AIAC12-Twelfth Australian International Aerospace Congress, 2nd Australasian Unmanned Air Vehicles Conference.Melbourne:[s.n.], 2007:1286-1293
    [12] Speijker L, Lee X, van de Leijgraaf R.Framework for unmanned aircraft systems safety risk management[J].SAE International Journal of Aerospace, 2011:1228-1242
  • 加载中
计量
  • 文章访问数:  1419
  • HTML全文浏览量:  89
  • PDF下载量:  534
  • 被引次数: 0
出版历程
  • 收稿日期:  2012-12-09
  • 网络出版日期:  2013-11-30

目录

    /

    返回文章
    返回
    常见问答