The paper began with research on automatic manipulation of wind lidar.
首先对激光多普勒测风雷达系统的总体控制方案进行了设计。
Mesure the transmittance of the etalon and the wind profile using the receiver in the molecule wind lidar system.
并且把本接收机用于分子测风激光雷达系统中进行了标准具透过率的测量和风廓线的初步测量。
The initial work location is scaled by Angle tuning method in Doppler wind lidar which utilizes double edge technique.
利用角度调谐的方法标定了多普勒测风激光雷达双边缘探测技术中的初始工作点。
The incoherent wind lidar in ocean university of China is mainly used to detect wind field at low altitude (below 15km).
中国海洋大学非相干激光雷达主要用于探测低空(15公里以下)大气风场。
The structure of molecular Doppler wind lidar receiver is designed. The designed receiver could be placed on the mechanical etagere.
设计了分子测风激光雷达接收机的结构,该接收机结构紧凑可以放置在机架上灵活便捷。
Doppler wind lidar is widely used in the field of measuring wind field because of its high precision, real time and large measuring range.
由于其高精度、实时性和测量范围大的突出优点,使得大气风场的测量广泛使用了激光测风技术。
The effects of scanner uncertainty, the aerosol backscatter and atmospheric temperature on wind accuracy of the wind lidar were evaluated.
研究了扫描角度误差、气溶胶后向散射信号、大气温度对风场探测精度的影响。
The article discusses how to realize the Doppler frequence and the speed of the wind based on the Doppler wind lidar technical requirements of Digital signal processing.
本文在测风数字信号处理技术要求的基础上,讨论了如何具体的实现多普勒频率和风速的计算。
Doppler wind lidar is an efficiency tool of measuring atmosphere wind field, Using Doppler effect is considered as one of the most advanced technology of measuring wind field.
激光多普勒雷达系统是测量大气风场有效的工具,利用激光多普勒效应进行测风是目前最先进的测量风场的技术之一。
Incoherent wind lidar is one of the most advanced wind measurement techniques. It can provide high accuracy and high-resolution wind information, and it is premier choice of space-borne wind lidar.
非相干测风激光雷达是目前风场测量的最先进的技术之一,它可以提供高精度、高分辨率的大气风场信息,是星载测风激光雷达的首选技术。
Dr Mikkelsen and his colleagues worked out that they could use lidar to scan incoming wind and determine how it was behaving before it struck the turbine.
Mikkelsen博士及其同事发现他们可以利用激光雷达来扫描将要到来的风,并且在其撞上涡轮之前预见其行动。
Then, the application of lidar for wind measurement was being discussed.
文章的最后,对测风雷达的核心技术进行了展望。
In this paper, on the basis of the basic principles and practical engineering, the Doppler lidar system for microscale wind shear-field detection is studied.
本文从基本原理和工程实际出发,对用于微尺度风切变场探测的多普勒激光雷达系统进行了初步研究。
Feasibility is discussed that a multi-longitudinal mode laser is employed as the detection light source of the double-edge technique for Doppler lidar wind measurement.
讨论采用多纵模激光器作探测光源用于双边缘多普勒激光雷达测风的可行性。
Currently, only direct detection Doppler lidar is able to directly measure three-dimensional wind field with high accuracy, high temporal and spatial resolution in the global region.
目前,只有直接探测多普勒测风激光雷达能够对全球范围的三维风场进行高精度、高时空分辨率的探测。
A new method to measure real-time sensitivity of Doppler lidar is presented, to solve the sensitivity uncertainty problem caused by the spatial and temporal change of aerosol during wind detecting.
提出了一种多普勒激光雷达测风灵敏度实时测量的方法,解决测风时因气溶胶时空变化引入的灵敏度测不准问题。
The result of correlation experiments using the incoherent lidar system shows the wide scope of wind measurement and accuracy. The error of wind velocity under different circumstances is analysed.
利用本系统进行了相关实验研究,试验结果表明这样的系统可以获得高的风速范围和测量精度,并进行误差分析。
The result of correlation experiments using the incoherent lidar system shows the wide scope of wind measurement and accuracy. The error of wind velocity under different circumstances is analysed.
利用本系统进行了相关实验研究,试验结果表明这样的系统可以获得高的风速范围和测量精度,并进行误差分析。
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