2007年12月11～14日，中国科学院大气物理研究所与法国Leosphere公司在该研究所位于北京市北三环和北四环之间的325 m气象塔试验场内联合开展了一次测风激光雷达Windcube的外场演示试验。Windcube观测数据随后与325 m气象塔上的风杯风速仪测得的风速资料进行了对比，结果是：由两种手段获得的所有6层匹配高度（63 m、80 m、100 m、120 m、160 m和200 m）上的10 min风速平均值一致性很好，相关系数都达到或超过0.98。使用矢量法对6层高度上的风向资料进行平均，得到风向的10 min平均值，两者的相关系数均达到0.99。与国产测量低层大气风廓线的高精度多普勒激光雷达相比，Windcube的风速测量精度稍优，风向表现相当。验证结果表明，该型多普勒测风激光雷达是一款观测结果可靠、机动性能良好的低层大气风廓线测量仪器。
A field performance of Doppler wind lidar Windcube (released by Leosphere Company) was conducted by Institute of Atmospheric Physics, Chinese Academy of Sciences (IAP/CAS) and Leosphere Company (from France) at the 325m meteorological tower site (a part of IAP, located between 3rd North Ring Road and 4th North Ring Road) from 11 December to 14 December 2007. The intercomparison of wind speed and wind direction obtained by Windcube and wind cup anemometers (fixed in the meteorological tower) shows that：1) 10min averaged wind speed is highly consistent between two types of wind data at six matched levels (63 m, 80 m, 100 m, 120 m, 160 m, and 200 m), the correlation coefficients all equal or exceed 0.98. 2) 10min averaged wind direction is calculated with the vector method, the correlation coefficients of averaged wind direction at the six levels are 0.99. 3) In comparison with domestic Doppler wind lidar, Windcube performs slightly better in wind speed measuring, and equally well in wind direction measuring. The intercomparison indicates that Windcube is a reliable and swift mobile system measuring wind profile at low levels.
夏俊荣,王普才,闵敏.2011.新型多普勒测风激光雷达Windcube的风参数观测与验证[J].气候与环境研究,16(6):733-741. Xia Junrong,Wang Pucai,Min Min.2011.Observation and Validation of Wind Parameters Measured by Doppler Wind Lidar Windcube[J].Climatic and Environmental Research (in Chinese],16(6):733-741.复制