[1] F Hu, Z X Hong, X E Lei. Recent progress of atmospheric boundary layer physics and atmospheric environment research in IAP. Chinese Journal of Atmospheric Sciences, 27, 712-728(2003).
[2] Liu G , Jiang W M, Luo Y F. Status quo prospects of researches on atmospheric boundary layer over inhomogeneous underlying surface[J]. Advences in Earth Science , 2005(02): 223230. (in Chinese)
[3] Dai L D. Vertical detection of fine structure of urban atmospheric boundary layer its impact on air pollution[D]. Lanzhou: Lanzhou University, 2021. (in Chinese)
[4] X D Xu, X J Zhou, X H Shi. The spatial structure and scale characteristics of the impact of urban community air pollution sources. Earth Science, 1-19(2005).
[5] D Liu, F D Qi, C J Jin, et al. Polarization lidar observations of cirrus clouds and asian dust aerosols over Hefei. Chinese Journal of Atmosphere Science, 27, 1093-1100(2003).
[6] Cai J Y. Observation simulation research on the spatiotempal variation acteristics of atmospheric boundary layer height in Beijing area[D]. Beijing: China Academy of Meteological Sciences, 2021. (in Chinese)
[7] Yu S Q, Liu D, Xu J W, et al. Optimization method f plaary boundary layer height retrieval by lidar [J]. Acta Optica Sinica , 2021, 41(7): 0728002. (in Chinese)
[8] Guo J P, Miao Y C, He J, et al. Observation simulation study on aerosol boundary layer cloud radiation interaction in the Beijing Tianjin Hebei region[C]China Meteological Society, 2017. (in Chinese)
[9] Liu Z X. Research on atmospheric boundary layer height inversion method based on lidar[D]. Nanjing: Nanjing University of Infmation Technology, 2022. (in Chinese)
[10] Mei L. Application of laser spectroscopy in environmental moniting[D]. Hangzhou: Zhejiang University, 2013. (in Chinese)
[11] S Q Zhang, X H Mi, F R Zhang. Research on geographic information system based on laser spectral remote sensing image processing. Surveying and Spatial Geographic Information, 46, 148-150, 154(2023).
[12] S L Xu. My opinions and suggestions on the development of laser biology and medicine. Applied Lasers, 49-50(2001).
[13] Fang W S. Research on spatiotempal distribution of atmospheric boundary layer height in the Yangtze River Delta based on CALIPSO sounding data[D]. Nanjing: Nanjing University of Infmation Technology, 2023. (in Chinese)
[14] R L Chi, D Liu, A Y Fan, et al. Development of polarization Mie scattering lidar. Journal of Applied Optics, 777-784(2008).
[15] J T Liu, W B Chen, Z S Liu. Simulation study on simultaneous measurement of atmospheric wind and aerosol optical properties using hyperspectral resolution lidar. Chinese Journal of Atmosphere Science, 115-122(2003).
[16] Ting L. Research on wavelet analysis its application in image processing[C]Proceedings of the 2017 International Conference on Environment, Biology, Medicine Computer Applications, Francis Academic Press, 2017: 7174.
[17] H Cao, M Lai, S L Bai. Wavelet transform estimation of local spectral density of earthquake ground motion. Engineering Mechanics, 21, 109-115(2004).
[19] Z L Wang, Y D Li. Using wavelet transform to compress seismic exploration data. Oil Geophysical Prospecting, 86-90, 146(1995).
[20] F Hu. Wavelet decomposition of turbulent vortex structures in the atmospheric boundary layer. Climatic and Environmental Research, 2-10(1998).
[21] Wang L, Sassen K. Wavelet analysis of cirrus multiscale structures from Lidar backscattering: A cirrus uncinus complex case study[J]. Journal of Applied Meteology & Climatology , 2008, 47(10): 26452658.
[22] Liu Z W. Research on infrared visible light image fusion algithm based on non downsampling shear wave transfm[D]. Xi’an: Nthwestern Polytechnical University, 2020. (in Chinese)
[23] L B Cheng, P Y Chen, Z Li, et al. Remote sensing image denoising based on shear wave transformation and goodness of fit test. Journal of Jilin University, 61, 1187-1194(2023).
[24] M Raymond, W M Angevine, C S Bretheeton, et al. Chapter 9100 years of progress in boundary layer meteorology. Advances in Meteorological Science and Technology, 9, 123-143(2019).
