1 |
FAN B K , LI Y , ZHANG R Y , et al. Review on the technological development and application of UAV systems[J]. Chinese Journal of Electronics, 2020, 29 (2): 199- 207.
doi: 10.1049/cje.2019.12.006
|
2 |
MEHTA P , GUPTA R , TANWAR S . Blockchain envisioned UAV networks: challenges, solutions, and comparisons[J]. Computer Communications, 2020, 151, 518- 538.
doi: 10.1016/j.comcom.2020.01.023
|
3 |
HOLI B , JAESUNG L . Design of future UAV-relay tactical data link for reliable UAV control and situational awareness[J]. IEEE Communications Magazine, 2018, 56 (10): 144- 150.
doi: 10.1109/MCOM.2018.1700259
|
4 |
GUO S X , DONG Z Y , HU Z T , et al. Simulation of dynamic electromagnetic interference environment for unmanned aerial vehicle data link[J]. China Communications, 2013, 10 (7): 19- 28.
doi: 10.1109/CC.2013.6570796
|
5 |
刘尚合, 刘卫东. 电磁兼容与电磁防护相关研究进展[J]. 高电压技术, 2014, 40 (6): 1605- 1613.
|
|
LIU S H , LIU W D . Progress of research on electromagnetic compatibility and electromagnetic protection[J]. High Voltage Engineering, 2014, 40 (6): 1605- 1613.
|
6 |
ZENG Y , ZHANG R , LIM T J . Wireless communications with unmanned aerial vehicles: opportunities and challenges[J]. IEEE Communications Magazine, 2016, 54 (5): 36- 42.
doi: 10.1109/MCOM.2016.7470933
|
7 |
张薇玮, 丁文锐, 刘春辉. 复杂环境中无人机数据链干扰效果预测方法[J]. 系统工程与电子技术, 2016, 28 (4): 760- 766.
|
|
ZHANG W W , DING W R , LIU C H . Prediction of interfe-rence effect on UAV data link in complex environment[J]. Systems Engineering and Electronics, 2016, 28 (4): 760- 766.
|
8 |
CHEN Y Z, ZHANG D X, CHENG E W. Investigation on susceptibility of UAV to radiated IEMI[C]//Proc. of the IEEE International Symposium on Electromagnetic Compatibility, 2018: 718-722.
|
9 |
杜宝舟, 陈亚洲, 高万峰, 等. 基于注入法的某型无人机数据链电磁效应研究[J]. 高电压技术, 2018, 44 (10): 3322- 3327.
|
|
DU B Z , CHEN Y Z , GAO W F , et al. Research on electromagnetic effect of unmanned aerial vehicle data link based on injection method[J]. High Voltage Engineering, 2018, 44 (10): 3322- 3327.
|
10 |
ZHNAG D X , CHEN Y Z , ZHOU X . Investigation on effects of HPM pulse on UAV's datalink[J]. IEEE Trans.on Electromagnetic Compatibility, 2020, 62 (3): 829- 839.
doi: 10.1109/TEMC.2019.2915285
|
11 |
WANG Y M , MA L Y , CHEN Y Z . Electromagnetic energy coupling path and protection method of UAV datalink against broad-spectrum high-power microwave radiation[J]. Radio Engineering, 2022, 31 (2): 201- 209.
|
12 |
CAO S , QIN H L , LI C , et al. Multi-slots joint MLE relative navigation algorithm based on INS/JTIDS/BA for datalink network[J]. IEEE Access, 2020, 8, 136795- 136807.
doi: 10.1109/ACCESS.2020.3011138
|
13 |
WU Y, MA Q S, XU P. Progress of electromagnetic compatibility design for unmanned aerial vehicles[C]//Proc. of the 6th Asia Conference on Mechanical Engineering and Aerospace Engineering, 2020: 316-320.
|
14 |
MOUROUGAYANE K. Performance analysis of spread spectrum based communication systems in interference prone environment[C]//Proc. of the 9th International Conference on Electromagnetic Interference and Compatibility, 2006: 67-70.
|
15 |
GOOT R E , GAVAN J . Frequency adaptation efficiency of spread spectrum communications under narrowband interfe-rence[J]. Radio Science, 2003, 38 (5): 21- 26.
|
16 |
TAN X P, SU S J, SUN X Y. Research on narrowband interference suppression technology of UAV network based on spread spectrum communication[C]//Proc. of the IEEE International Conference on Artificial Intelligence and Information Systems, 2020: 335-338.
|
17 |
XIE D G, WU N, WANG C, et al. Performance analysis and simulation of DSSS in tactical data link communication system[C]// Proc. of the 6th Asia-Pacific Conference on Environmental Electromagnetics, 2012: 194-197.
|
18 |
XIE H, HU J, YIN W Y. Anti-jamming performance simulation and analysis of tactical data link communication system[C]// Proc. of the International Symposium on Electromagnetic Compatibility, 2014: 1096-1101.
|
19 |
MA L, FAN C, SUN W, et al. Comparison of jamming me- thods for underwater acoustic DSSS communication systems[C]// Proc. of the 2nd IEEE Advanced Information Management, Communicates, Electronic and Automation Control Confe-rence, 2018: 1340-1344.
|
20 |
YAO G . To improve the real-time performance of airborne data link communication system[J]. Mathematical Problems in Engineering, 2021, 2021, 5558089.
|
21 |
赵惠昌, 张淑宁. 电子对抗理论与方法[M]. 北京: 国防工业出版社, 2010.
|
|
ZHAO H C , ZHANG S N . Electronic countermeasure theory and method[M]. Beijing: National Defense Industry Press, 2010.
|
22 |
SIMON M K , OMURA J K , SCHOLTZ R A . Spread spectrum communications handbook[M]. New York: McGraw-Hill, 1994.
|
23 |
VOJCIC B R , PICKHOLTZ R L . Performance of direct sequence spread spectrum in a fading dispersive channel with jamming[J]. IEEE Journal on Selected Areas in Communications, 1989, 7 (4): 561- 568.
doi: 10.1109/49.17720
|
24 |
罗华. 单音及窄带干扰下DSSS系统处理增益精确分析[J]. 电讯技术, 2014, 54 (6): 713- 718.
|
|
LUO H . Accurate analysis of processing gain in direct sequence spread spectrum communication systems under single-tone and narrowband interference[J]. Telecommunication Engineering, 2014, 54 (6): 713- 718.
|
25 |
RICHARD W . Digital communications with emphasison data modems[M]. New York: Wiley, 2017.
|
26 |
卢新福, 魏光辉, 潘晓东. 用频装备强场电磁辐射效应等效试验方法[J]. 系统工程与电子技术, 2022, 44 (3): 755- 761.
|
|
LU X F , WEI G H , PAN X D . High intensity electromagnetic field radiation effect equivalent test method for spectrum- dependent equipment[J]. Systems Engineering and Electronics, 2022, 44 (3): 755- 761.
|
27 |
ZHANG D X , ZHAO M , CHENG E W , et al. GPR-based EMI prediction for UAV's dynamic datalink[J]. IEEE Trans.on Electromagnetic Compatibility, 2021, 63 (1): 19- 29.
|
28 |
ZHAO M, XU T, ZHANG D X, et al. Implementation method of anti electromagnetic interference in identical and adjacent frequency for the data link of UAV[C]//Proc. of the IEEE International Conference on Numerical Electromagnetic and Multiphysics Modeling and Optimization, 2020.
|
29 |
BENNAGEH I, MAHMOUDI H, LABBADI M. Impact of the electromagnetic environment on UAV's datalink[C]//Proc. of the International Conference on Innovative Research on Renewable Energy Technologies, 2021: 25-27.
|
30 |
JOHANNES R M , FABIO G , ALEXANDER R , et al. Wide-band interference mitigation in GNSS receivers using sub-band automatic gain control[J]. Sensors, 2022, 22 (2): 679.
|
31 |
吴宣利, 许智聪, 王禹辰, 等. 基于信道相关性的物理层安全性能分析[J]. 通信学报, 2021, 42 (3): 65- 74.
|
|
WU X L , XU Z C , WANG Y C , et al. Performance analysis of physical layer security based on channel correlation[J]. Journal on Communications, 2021, 42 (3): 65- 74.
|
32 |
JERUCHIM M . Techniques for estimating the bit error rate in the simulation of digital communication systems[J]. IEEE Journal on Selected Areas in Communications, 1984, 2 (1): 153- 170.
|