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Laser & Infrared, Volume. 54, Issue 3, 355(2024)

Aircraft wake fusion prediction method based on LiDAR detection

WEI Zhi-qiang and LV Zhen-hai*
Author Affiliations
  • School of Air Traffic Management, Civil Aviation University of China, Tianjin 300300, China
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    [1] [1] Veillette P R. Data show that US wake-turbulence accidents are most frequent at low altitude and during approach and landing[j]. Flight Safety Digest, 2002, 21(3-4): 1-47.

    [8] [8] De Visscher I, Lonfils T, Winckelmans G. Fast-time modeling of ground effects on wake vortex transport and decay[J]. Journal of Aircraft, 2013, 50(5): 1514-1525.

    [9] [9] Holzpfel F. Probabilistic two-phase wake vortex decay and transport model[J]. Journal of Aircraft, 2003, 40(2): 323-331.

    [10] [10] Holzpfel F. Probabilistic two-phase aircraft wake-vortex model: further development and assessment[J]. Journal of Aircraft, 2006, 43(3): 700-708.

    [11] [11] Koerner S, Ahmad N N, Holzaepfel F, et al. Multi-model ensemble wake vortex prediction[C]//7th AIAA Atmospheric and Space Environments Conference, 2015.

    [12] [12] Davies F, Collier C G, Pearson G N, et al. Doppler lidar measurements of turbulent structure function over an urban area[J]. Journal of Atmospheric and Oceanic Technology, 2004, 21(5): 753-761.

    [13] [13] Frehlich, Rod, Cornman, et al. Estimating spatial velocity statistics with coherent doppler lidar[J]. Journal of Atmospheric & Oceanic Technology, 2002, 19: 355-366.

    [14] [14] Banakh V A, Bodaruev V V, Smalikho I N. Estimation of the turbulence energy dissipation rate from the pulsed doppler lidar data[J]. Atmospheric and Oceanic Optics C/C of Optika Atmosfery I Okeana, 1997, 10: 957-965.

    [16] [16] Monin, A. S., and A. M. Yaglom, 1975: statistical fluid mechanics: mechanics of turbulence volume 2[M]. MIT Press: 874.

    [17] [17] Banakh V A, Smalikho I N, Werner C. Numerical simulation of doppler lidar detection of clear-air turbulence[C]//Conference on Laser Radar: Ranging and Atmospheric Lidar Techniques, 2002.

    [18] [18] Frehlich R, Sharman R. Maximum likelihood estimates of vortex parameters from simulated coherent Doppler lidar data[J]. Journal of Atmospheric and Oceanic Technology, 2005, 22(2): 117-130.

    [19] [19] Ahmad N N, Proctor F. Review of Idealized aircraft wake vortex models[C]//Aerospace Sciences Meeting, 2013.

    [20] [20] Li J, Wang T, Gao H, et al. Circulation retrieval of wake vortex under rainy condition with a radar[C]//2017 IEEE Radar Conference (RadarConf). IEEE, 2017: 0095-0100.

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    WEI Zhi-qiang, LV Zhen-hai. Aircraft wake fusion prediction method based on LiDAR detection[J]. Laser & Infrared, 2024, 54(3): 355

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    Paper Information

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    Received: May. 15, 2023

    Accepted: Jun. 4, 2025

    Published Online: Jun. 4, 2025

    The Author Email: LV Zhen-hai (2021031032@cauc.edu.cn)

    DOI:10.3969/j.issn.1001-5078.2024.03.005

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology