Optimization of aircraft wake vortex inversion algorithm near ground based on Doppler lidar

Rongchuan Zhang; Xiaoye Wang; Hongwei Zhang; Xiaoying Liu; Xitao Wang; Shengguang Qin; Jiaping Yin; Qichao Wang; Songhua Wu

doi:10.3788/IRLA20230160

Infrared and Laser Engineering, Volume. 52, Issue 11, 20230160(2023)

Optimization of aircraft wake vortex inversion algorithm near ground based on Doppler lidar

Rongchuan Zhang¹, Xiaoye Wang¹, Hongwei Zhang^1,2,3、*, Xiaoying Liu¹, Xitao Wang⁴, Shengguang Qin⁴, Jiaping Yin⁴, Qichao Wang¹, and Songhua Wu^1,3

Author Affiliations

¹College of Marine Technology, Faculty of Information Science and Engineering, Ocean University of China, Qingdao 266100, China

²Key Laboratory of Space Laser Information Transmission and Detection Technology, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Shanghai 201800, China

³Laboratory for Regional Oceanography and Numerical Modeling, Laoshan Laboratory, Qingdao 266237, China

⁴Qingdao Leice Transient Technology Co., Ltd, Qingdao 266100, China

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References(20)

[1] [1] Holzäpfel F, Reinke A, Kauertz S, et al. Aircraft wake vtex stateoftheart & research needs [EBOL]. [20230602]. https:elib.dlr.de99428.

[2] Wenjing Xu, Jinhong Xian, Dongsong Sun. Polarization lidar system for smoke and dust monitoring and experimental research. Infrared and Laser Engineering, 52, 20220508(2023).

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

[4] H Gao, J Li, P W Chan, et al. Parameter-retrieval of dry-air wake vortices with a scanning Doppler Lidar. Optics Express, 26, 16377-16392(2018).

[5] [5] Wassaf H, Burnham D, Wang F. Wake vtex tangential velocity adaptive spectral (TVAS) algithm f pulsed lidar systems [C]16th Coherent Laser Radar Conference, Long Beach, CA, 2011.

[6] I N Smalikho, V A Banakh, F Holzäpfel, et al. Method of radial velocities for the estimation of aircraft wake vortex parameters from data measured by coherent Doppler lidar. Optics Express, 23, A1194-A1207(2015).

[7] J Li, C Shen, H Gao, et al. Path integration (PI) method for the parameter-retrieval of aircraft wake vortex by Lidar. Optics Express, 28, 4286-4306(2020).

[8] S Wu, X Zhai, B Liu. Aircraft wake vortex and turbulence measurement under near-ground effect using coherent Doppler lidar. Optics Express, 27, 1142-1163(2019).

[9] W Pan, H Yin, Y Leng, et al. Recognition of aircraft wake vortex based on random forest. IEEE Access, 10, 8916-8923(2022).

[10] [10] Wartha N, Stephan A, Rotshteyn G, et al. Investigating artificial neural wks f detecting aircraft wake vtices in lidar measurements[C]ODAS 202222nd OneraDLR Aerospace Symposium, 2022.

[11] [11] Asmuth H, Kb H. Wake 0.1A simple threedimensional wake model based on convolutional neural wks[C]Journal of Physics: Conference Series. IOP Publishing, 2022, 2265(2): 022066.

[12] [12] Ramsey D, Nguyen C. acterizing aircraft wake vtices with groundbased pulsed coherent lidar: effects of vtex circulation strength lidar signaltonoise ratio on the spectral signature [C]3rd AIAA Atmospheric Space Environments Conference, 2011: 3198.

[13] [13] Switzer G, Proct F, Ahmad N, et al. An improved wake vtex tracking algithm f multiple aircraft [C]AIAA Atmospheric Space Environments Conference, 2010: 7993.

[14] C Shen, J Li, F Zhang, et al. Two-step locating method for aircraft wake vortices based on Gabor filter and velocity range distribution. IET Radar, Sonar & Navigation, 14, 1958-1967(2020).

[15] F Holzäpfel. Probabilistic two-phase wake vortex decay and transport model. Journal of Aircraft, 40, 323-331(2003).

[16] [16] Ahmad N N, Proct F. Review of idealized aircraft wake vtex models[C]52nd Aerospace Sciences Meeting, 2014: 0927.

[17] Xiaoye Wang, Songhua Wu, Xiaoying Liu, . Observation of aircraft wake vortex based on coherent Doppler lidar. Acta Optica Sinica, 41, 0901001(2021).

[18] F Holzäpfel, T Gerz, F Köpp, et al. Strategies for circulation evaluation of aircraft wake vortices measured by lidar. Journal of Atmospheric and Oceanic Technology, 20, 1183-1195(2003).

[19] Runping Gu, Xiaohao Xu, Zhiqiang Wei. Research on ground effect for wake vortex decay. Journal of Civil Aviation University of China, 27, 1-3(2009).

[20] Changzhong Feng, Songhua Wu, Haiguang Huang, et al. Technique of wind field detection based on single Doppler lidar with gradient descent VAD method. Infrared and Laser Engineering, 47, 1106006(2018).

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Rongchuan Zhang, Xiaoye Wang, Hongwei Zhang, Xiaoying Liu, Xitao Wang, Shengguang Qin, Jiaping Yin, Qichao Wang, Songhua Wu. Optimization of aircraft wake vortex inversion algorithm near ground based on Doppler lidar[J]. Infrared and Laser Engineering, 2023, 52(11): 20230160

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Paper Information

Category:

Received: Mar. 22, 2023

Accepted: --

Published Online: Jan. 8, 2024

The Author Email: Zhang Hongwei (.Zhanghongwei8944@ouc.edu.cn)

DOI:10.3788/IRLA20230160

Topics

laser devices and laser physics

Lasers and Laser Optics

Laser physics

laser manufacturing

Instrumentation, Measurement and Metrology