Application of Gradient Method to Detect Height Distribution of Atmospheric Boundary Layer with Lidar

Lin WANG; Chen-bo XIE; Zhen-zhu WANG; Guang-yu BO; Dong LIU; He-li WEI

doi:10.3969/j.issn.1673-6141.2012.03.001

Journals >Journal of Atmospheric and Environmental Optics >Volume 7 >Issue 3 >Page 161 > Article

Journal of Atmospheric and Environmental Optics
Vol. 7, Issue 3, 161 (2012)

Application of Gradient Method to Detect Height Distribution of Atmospheric Boundary Layer with Lidar

Lin WANG^1、2, Chen-bo XIE¹, Zhen-zhu WANG¹, Guang-yu BO¹, Dong LIU¹, and He-li WEI¹

Author Affiliations

¹[in Chinese]

²[in Chinese]

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DOI: 10.3969/j.issn.1673-6141.2012.03.001 Cite this Article

WANG Lin, XIE Chen-bo, WANG Zhen-zhu, BO Guang-yu, LIU Dong, WEI He-li. Application of Gradient Method to Detect Height Distribution of Atmospheric Boundary Layer with Lidar[J]. Journal of Atmospheric and Environmental Optics, 2012, 7(3): 161 Copy Citation Text

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Abstract

In order to study the changes of the atmospheric boundary layer’s structure in Hefei, the polarization-Raman-Mie scattering lidar system is operated automatically and continuously. The gradient method used to extract the height of atmospheric boundary layer from lidar data is introduced and analyzed. The modified gradient method is used to obtain the temporal characteristics of the height of atmospheric boundary layer in Hefei. The results show that the height of atmospheric boundary layer in Hefei ranges from 1 km to 1.5 km, and the average height is about (1.28±0.2) km during the experiment.

Keywords

atmospheric boundary layer gradient method lidar

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