LAUSR

Atmospheric wind measurement over complex terrain is of great significance. Due to the limitation of the retrieval method, a single wind lidar cannot be applied to detect the horizontally inhomogeneous wind field. Therefore, a bistatic Doppler wind lidar system is studied for meeting the requirement of wind detection over complex terrain. By analyzing the uncertainty of a synthetic wind field, the isosceles triangle is proven to be the optimal layout of the bistatic lidar system. By using the data set of Nanjing sounding data from 2015 and two typical wind field models, the detection accuracy of the bistatic lidar system is estimated. The experimental results show that the bistatic wind lidar can detect the wind field over complex terrain accurately, the wind errors are less than 1 m/s below 4 km, and the relative errors are less than 5%.