[1] Wang G L, Liu L P, Ruan Z. Application of Doppler radar data to nowcasting of heavy rainfall[J]. Journal of Applied Meteorological Science, 18, 388-395, 417(2007).
[2] Ding Y H, Li Y, Wang Z Y et al. Interdecadal variation of Afro-Asian summer monsoon: coordinated effects of AMO and PDO oceanic modes[J]. Transactions of Atmospheric Sciences, 43, 20-32(2020).
[3] Zhou Y, Wei M, Song L X. The wind and temperature information of AMDAR data applied to the analysis of severe weather nowcasting in airports[J]. Transactions of Atmospheric Sciences, 42, 303-310(2019).
[4] Yang X Y, Qin Y L, Zhang M Y et al. Forecast of heavy rain caused by the northeast cold vortex using “ingredients method”[J]. Transactions of Atmospheric Sciences, 41, 475-482(2018).
[5] Chen Y B, Gao Y C, Liu B Y et al. The assessment and analysis of the upper wind data measured by the Doppler lidar based on the Chebyshev approaching function[J]. Journal of Tropical Meteorology, 30, 327-344(2014).
[9] Dong L P. Wind profiler radar data assessment and products research and application[D](2014).
[11] Hu M B, Li M Y. The development and technologic status of wind profiling radar[J]. Scientia Meteorologica Sinica, 30, 724-729(2010).
[16] Dong Q T, He M H, Diao J et al. Precision variation of wind profiler measurements with height in different weather conditions in summer[J]. Meteorological Science and Technology, 46, 16-28(2018).
[18] Zhou X Y, Liao F, Hu D M. A study on low-level wind field characteristics of rainstorm containing short-range heavy rainfall during April to June rainy season in Guangdong by wind profiler data[J]. Journal of Tropical Meteorology, 35, 332-342(2019).
[19] Yu Z S, Ji C X, Yang C et al. Impacts of assimilating wind profiler radar observations on precipitation prediction in Zhejiang Province[J]. Journal of Applied Meteorological Science, 29, 97-110(2018).
[20] Li P R, Xiao T G, Wang M Y. Study on typical continuous heavily polluted weather in Chengdu area based on wind profiler radar[J]. Acta Scientiae Circumstantiae, 39, 4174-4186(2019).
[21] Wang X Y, Ren Y, Li D. Comparative experimental evaluation of moving boundary layer wind profiler radar in the northern of Fujian Province[J]. Meteorological and Environmental Sciences, 37, 108-113(2014).
[22] Xia J R, Wang P C, Min M. Observation and validation of wind parameters measured by Doppler wind lidar Windcube[J]. Climatic and Environmental Research, 16, 733-741(2011).
[23] Qu Q N, Sheng C Y, Sun Q et al. Comparison of horizontal wind between wind profile radar and L band sounding radar[J]. Journal of Arid Meteorology, 34, 1078-1086(2016).
[24] Zhang Y, Fan C, Zhao N et al. Reliability validation of horizontal wind data derived from wind profile radar at Chang’an station of Shaanxi[J]. Journal of Arid Meteorology, 35, 507-515(2017).
[25] Li X, Wang L, Ren Q. Estimation of the detection ability of CFL-03 wind profile radar in Urumqi[J]. Desert and Oasis Meteorology, 10, 9-18(2016).
[26] Luo Y, Ma Z F, Zhao P G et al. Characteristics of persistent haze events and circulation analysis in Sichuan Basin in recent 36 years[J]. China Environmental Science, 39, 3604-3615(2019).
[27] Qi J H, Hao J F, Geng F. Comparative analysis on wind data from CFL-06 wind profiler radar and L band sounding radar[J]. Meteorological and Environmental Sciences, 42, 135-143(2019).
[28] Xia W M, Chen N, Cheng T et al. Analysis on characteristics of VWP wind product of Doppler weather radar during rainfall process[J]. Meteorological Monthly, 34, 20-26, 130(2008).
[29] Wu X Q. Current situation and prospect of mesoscale meteorological model in atmospheric optical turbulence forecast[J]. Laser & Optoelectronics Progress, 54, 010001(2017).
[30] Hu X D, Su C D, Luo T et al. Estimating the profiles of atmospheric turbulence above Korla, Maoming, Lhasa by Thorpe scale[J]. High Power Laser and Particle Beams, 31, 081002(2019).