Weather Identification System for Normal Running of Middle and Upper Atmosphere Lidar

Junfeng Wei; Xuewu Cheng; Guotao Yang; Weiqiang Zhan; Zhaoxiang Lin

doi:10.3788/LOP221378

[1] Jiao J. Special structures of mid-upper atmospheric metal layers and their formation mechanisms based on fluorescence lidar[D](2015).

[2] Ma J. The studies of the coupling process within the mesosphere and lower thermosphere region based on lidar observations[D](2020).

[3] Chen L X, Yang G T, Wang J H et al. Measurements of lower mesosphere inversion layers with Rayleigh lidar over Beijing[J]. Chinese Journal of Space Science, 37, 75-81(2017).

[4] Xiong J G, Yi F, Klostermeyer J et al. The VHF observation and study of nonlinear interaction near mesopause[J]. Chinese Journal of Radio Science, 15, 84-89(2000).

[5] Li Y J, Cheng X W, Li F Q et al. Using lidar to simultaneously observe the sodium layer and potassium layer over Wuhan[J]. Chinese Journal of Space Science, 32, 68-74(2012).

[6] Tian Y F, Lü D R. Preliminary analysis of Beijing MST radar observation results in the mesosphere-lower thermosphere[J]. Chinese Journal of Geophysics, 59, 440-452(2016).

[7] Shen F H, Zhuang P, Wang B X et al. Research on retrieval method of low-altitude wind field for Rayleigh-Mie scattering Doppler lidar[J]. Chinese Journal of Lasers, 48, 1110005(2021).

[8] Sugimoto N, Uno I, Nishikawa M et al. Record heavy Asian dust in Beijing in 2002: observations and model analysis of recent events[J]. Geophysical Research Letters, 30, 1640(2003).

[9] Yu H. Research on the method and application of flood forecasting and flood dispatching optimization based on a coupled atmospheric-hydrological[D](2013).

[10] Chen Y W. Research progress of synoptic science and weather forecast[J]. Science & Technology Information, 11, 207(2013).

[12] Cheng X W, Gong S S, Li F Q et al. Daytime observation technology of lidar by using atomic optical filter[J]. Chinese Journal of Lasers, 34, 406-410(2007).

[13] Yang G T, Liu B M, Wang J M et al. A study of sodium layer distribution over Wuhan, China based the lidar observation result[J]. Chinese Journal of Geophysics, 46, 577-583(2003).

[14] Fu S L, Xie C B, Li L et al. PM2.5 concentration identification based on lidar detection[J]. Acta Optica Sinica, 41, 0928001(2021).

[15] Yang Y, Cheng X W, Yang G T et al. Research progress of lidar for upper atmosphere[J]. Chinese Journal of Quantum Electronics, 37, 566-579(2020).

[16] Lin Z X, Ke W, Yang G T et al[P]. The invention relates to a lidar startup automatic identification method, a device and a storage device.

[17] Feng Y R. Design and implementation of web crawler system based on Python[J]. Computer and Information Technology, 29, 47-50(2021).

[18] Zhou D S. Research on data preprocessing method under the background of big data[J]. Shandong Chemical Industry, 49, 110-111, 122(2020).

[19] Zhan W Q. Lidar intelligent booting system based on morphological analysis[D](2019).

[20] Deng S C, Huang Y. Fast algorithm of dilation and erosion for binary image[J]. Computer Engineering and Applications, 53, 207-211(2017).

[21] Dai P D, Zhang Y J, Lu C H et al. Research on night visibility estimation method based on image features of dual light sources[J]. Spectroscopy and Spectral Analysis, 34, 1-5(2014).

微信扫一扫：分享

微信扫一扫：分享