[1] [1] Chen Yanliang. Aeronautical Meteology of Modern Transpt Aircraft[M]. Beijing: China Meteological Press, 1992. (in Chinese)

[2] Wang Qingmei, Guo Lile. Development of lidar in detection of low altitude wind shear[J]. Laser & Infrared, 42, 1324-1328(2012).

[3] Jacobi C, Siemer A H, Roth R. On wind shear at fronts and inversions[J]. Meteorology & Atmospheric Physics, 59, 235-243(1996).

[4] Peng Xiaofei. Analysis of the influence of low-level wind shear with aircraft on approach and landing phase[J]. Science & Technology Ecnony Market, 34-36(2010).

[5] Sun Siyu. Analysis of the variation characteristics of surface wind speed in capital airport in 15 years[J]. Scientific and Technological& Innovations, 116, 93-94(2018).

[6] Ma Minjin, Lin Chao, Zhao Surong, et al. Analysis and a numerical study of low-level wind shear over beijing capital International airpor[J]. Journal of Lanzhou University (Natural Sciences), 49, 70-76(2013).

[7] Ji Pengfei, Ding Yanli, Li Sheng. Analysis on the features of two low level wind shear and atmospheric circulation situation in beijing capital international airpor[J]. Air Traffic Management, 44-47(2013).

[8] [8] Zhang Ning, Jiang Weimei. Numerical simulation of the airflow influence on buildings within urban canopy[C]The First Yangtze River Delta Science Technology FumMeteological Science Technology Development Fum, 2004. (in Chinese)

[9] [9] ICAO. Manual on Lowlevel Wind Turbulence[M]. Montréal, Canada: International Civil Aviation ganization, 2005: 1047.

[10] Lee Y F, Chan P W. LIDAR-based F-factor for wind shearalerting: different smoothing algorithms and application todeparting flights[J]. Meteorological Applications, 21, 86-93(2014).

[11] Zhang H W, Wu S H, Wang W C, et al. Airport low-level wind shear lidar observation at Beijing Capital International Airport[J]. Infrared Physics & Technology, 96, 113-122(2019).

[12] Jiang Lihui, Yan Yan, Xiong Xinglong, et al. Doppler lidar alerting algorithm of low-level wind shear based on ramps detection[J]. Infrared and Laser Engineering, 45, 0106001(2016).

[13] Chen Xing, Li Zhen, Zhuang Zibo, et al. A small scale wind shear detection algorithm of modified F-factor for wind-profiling lidar[J]. Optics and Precision Engineering, 26, 927-935(2018).

[14] Hu Yang, Zhu Heyuan. 1.55 μm all-fiber coherent Doppler lidar for wind measurement[J]. Infrared and Laser Engineering, 45, S130001(2016).

[15] Li Li, Wang Chanzhao, Xie Yafeng, et al. Wind field inversion technique for scanning wind lidar[J]. Chinese Optics, 6, 251-258(2013).

[16] Wang Guining, Liu Bingyi, Feng Changzhong, et al. Data quality control method for VAD wind field retrieval based on coherent wind lidar[J]. Infrared and Laser Engineering, 47, 0230002(2018).

[17] [17] Federal Aviation Administration. Airplane Flying Hbook[M]. Translated by Chen Xinhe. Shanghai: Shanghai Jiao Tong University Press, 2010. (in Chinese)

[18] Que Guoliang. Low-level wind shear and its impact on flight[J]. Flight Dynamics, 70-76(1990).

[19] [19] Chan P W, Shun C M, Wu K C. Operational LIDARbased system f automatic windshear alerting at the Hong Kong International Airpt[C]2th Conference on Aviation, Range, Aerospace Meteology, 2006.

[20] Shun C M, Chan P W. Applications of an infrared Doppler lidar in detection of wind shear[J]. Journal of Atmospheric & Oceanic Technology, 25, 637(2008).

[21] [21] Jones J G, Haynes A. A peakspotter program applied to the analysis of increments in turbulence velocity[R]. US: Royal Aircraft Establishment Technical Rept 84071, 1984.