Effect of haze on the performance of coherent wind lidar

Ziao Wan; Ke Wen; Yaping Li; Han Peng; Xiaying Wu; Guiying Jiang; Pengfei Gong

doi:10.1117/12.2666044

4 April 2023 Effect of haze on the performance of coherent wind lidar

Ziao Wan, Ke Wen, Yaping Li, Han Peng, Xiaying Wu, Guiying Jiang, Pengfei Gong

Proceedings Volume 12617, Ninth Symposium on Novel Photoelectronic Detection Technology and Applications; 126173K (2023) https://doi.org/10.1117/12.2666044
Event: 9th Symposium on Novel Photoelectronic Detection Technology and Applications (NDTA 2022), 2022, Hefei, China

Abstract

This paper proposes to use the model of cladding particle scattering to construct the attenuation of haze aerosol, and use PM2.5 index to characterize the haze intensity. When the laser is transmitted along any path, the attenuation of the oblique path is divided into micro path by using the layered calculation idea of calculus. Since the micro path can be equivalent to the horizontal path, the attenuation of any path can be obtained by integrating the attenuation of each microscopic path. The error between the numerical results and the Kruse model is only 3.69% at haze case. In the international meteorological standard, the error within 5% means that the calculation result is valid.Then, according to different relative positions of coherent wind lidar and atmospheric wind field, they can be divided into three cases. Finally, the effects of haze weather with different intensity on the detection power, carrier noise ratio and wind speed measurement accuracy of the coherent wind lidar are analyzed under three different relative positions.The simulation results show that the increase of PM 2.5 index will reduce the effective range of the wind lidar. The PM 2.5 index of the system is no more than 554 and the limit of CNR is -11.4dB and estimation accuracy is 0.005m/s when the propagation distance is 1km on ground. The degree of limit value can become smaller via increasing system altitude and decreasing zenith angle.

Citation Download Citation

Ziao Wan, Ke Wen, Yaping Li, Han Peng, Xiaying Wu, Guiying Jiang, and Pengfei Gong "Effect of haze on the performance of coherent wind lidar", Proc. SPIE 12617, Ninth Symposium on Novel Photoelectronic Detection Technology and Applications, 126173K (4 April 2023); https://doi.org/10.1117/12.2666044

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KEYWORDS

Air contamination

LIDAR

Atmospheric propagation

Atmospheric particles

Wind speed

Signal attenuation

Aerosols

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