[1] |
COOK S , BRIGAUD R . Introduction to NATO STANAG 4671-UAV systems airworthiness requirements[C]// Proceedings of AUVSI North America.[S.l.:s.n.], 2009.
|
[2] |
MA T , ZHOU H B , QIAN B ,et al. UAV-LEO integrated backbone:aubiquitous data collection approach for B5G Internet of remote things networks[J]. IEEE Journalon Selected Areasin Communications, 2021,39(11): 3491-3505.
|
[3] |
QU Z C , ZHANG G X , CAO H T ,et al. LEO satellite constellation for Internet of things[J]. IEEE Access, 2017(5): 18391-18401.
|
[4] |
JIA Z Y , SHENG M , LI J D ,et al. LEO-satellite-assisted UAV:joint trajectory and data collection for Internet of remote things in 6G aerial access networks[J]. IEEE Internet of Things Journal, 2021,8(12): 9814-9826.
|
[5] |
常奔, 戴志京 . 无人机系统适航标准剪裁案例分析[J]. 民用飞机设计与研究, 2015(3): 65-69.
|
|
CHANG B , DAI Z J . A case study of tailored airworthiness standards for unmanned aircraft system[J]. Civil Aircraft Design& Research, 2015(3): 65-69.
|
[6] |
连婷婷, 崔利杰 . 无人机系统的安全性与危险源分析[J]. 航空工程进展, 2020,11(4): 517-523.
|
|
LIAN T T , CUI L J . Safety and hazards analysis for unmanned aerial vehicle system[J]. Advances in Aeronautical Science and Engineering, 2020,11(4): 517-523.
|
[7] |
祁圣君, 吴欣龙, 孙健 . 无人机系统适航发展现状及挑战[J]. 飞航导弹, 2015(7): 25-30.
|
|
QI S J , WU X L , SUN J . The develop and challenge of unmanned aircraft system airworthiness[J]. Aerodynamic Missile Journal, 2015(7): 25-30.
|
[8] |
CUI L J , ZHANG J K , REN B ,et al. Research on a new aviation safety index and its solution under uncertainty conditions[J]. Safety Science, 2018,107: 55-61.
|
[9] |
吕游 . 无人机系统适航现状及发展研究[J]. 航空制造技术, 2014,57(22): 138-140,145.
|
|
LYU Y . Current status and development for unmanned aircraft system airworthiness[J]. Aeronautical Manufacturing Technology, 2014,57(22): 138-140,145.
|
[10] |
丁水汀, 鲍梦瑶, 杜发荣 . 无人机系统适航与安全性分析方法[J]. 航空动力学报, 2012,27(1): 233-240.
|
|
DING S T , BAO M Y , DU F R . Safety research on unmanned aircraft system for airworthiness[J]. Journal of Aerospace Power, 2012,27(1): 233-240.
|
[11] |
HADDON D R , WHITTAKER C J . Aircraft airworthiness certification standards for civil UAVs[J]. The Aeronautical Journal, 2003,107(1069): 79-86.
|
[12] |
祁圣君, 刘朝君 . NATO STANAG 4703《轻型无人机系统适航性要求》解读与思考[J]. 航空标准化与质量, 2017(4): 48-51.
|
|
QI S J , LIU C J . Airworthiness requirements for light unmanned aerial vehicle[J]. Aeronautic Standardization & Quality, 2017(4): 48-51.
|
[13] |
张泽京, 苗延青, 史校川 . 大型民用无人机适航管理问题研究[J]. 航空标准化与质量, 2018(1): 29-33.
|
|
ZHANG Z J , MIAO Y Q , SHI X C . Study on problems in large civil UAV airworthiness management[J]. Aeronautic Standardization & Quality, 2018(1): 29-33.
|
[14] |
金镭, 苗延青, 史校川 ,等. 国内民用无人机适航管理思考[J]. 航空标准化与质量, 2016(5): 33-36.
|
|
JIN L , MIAO Y Q , SHI X C ,et al. The thoughts on airworthiness management of civil UAV in China[J]. Aeronautic Standardization & Quality, 2016(5): 33-36.
|
[15] |
柳永波, 马庆林 . 通用飞机改型无人机系统的适航审定基础研究[J]. 航空科学技术, 2021,32(10): 49-54.
|
|
LIU Y B , MA Q L . Research of airworthiness certification basis for unmanned aircraft system modified from general aircraft[J]. Aeronautical Science & Technology, 2021,32(10): 49-54.
|
[16] |
郝志鹏, 刘薇薇 . 一种面向无人机适航审定的风险评估方法[J]. 民航学报, 2020,4(5): 80-82.
|
|
HAO Z P , LIU W W . A risk assessment method for UAS airworthiness certification[J]. Journal of Civil Aviation, 2020,4(5): 80-82.
|
[17] |
乔卫华 . 通用飞机机载设备适航审定过程及方法研究[J]. 电子科技, 2014,27(8): 186-189.
|
|
QIAO W H . Study of general aircraft airworthiness certification process equipment and method[J]. Electronic Science and Technology, 2014,27(8): 186-189.
|
[18] |
史宏伟, 王玉鑫, 周志闽 ,等. 无线发射设备加改装适航审定方法研究[J]. 中国民航大学学报, 2016,34(1): 45-49.
|
|
SHI H W , WANG Y X , ZHOU Z M ,et al. Study on airworthiness certification method of addition and modification of radio transmitting equipment[J]. Journal of Civil Aviation University of China, 2016,34(1): 45-49.
|
[19] |
黄跃智, 张利辉 . 民用飞机卫星通信系统的设计和适航验证考虑[J]. 民用飞机设计与研究, 2016(3): 69-72.
|
|
HUANG Y Z , ZHANG L H . Design consideration and airworthiness validation of the satellite communication system for civil aircraft[J]. Civil Aircraft Design & Research, 2016(3): 69-72.
|
[20] |
COTTING M C . Applicability of human flying qualities requirements for UAVs,finding a way forward[C]// Proceedings of AIAA Atmospheric Flight Mechanics Conference. Reston,Virginia:AIAA, 2009:6322.
|