研究和设计了一实验性双端差分吸收激光雷达系统。
An experimental laser radar system with double end differential absorption is studied and designed.
差分吸收激光雷达(DIAL)是目前探测大气污染成分最有效的方法之一。
Differential Absorption Lidar (DIAL) for detecting atmospheric pollution is used extensively for its high precision and spatial resolution.
以差分吸收激光雷达为背景,对基于WDM的实时监测控制系统的设计中涉及的关键技术进行研究。
With differential absorption laser radar as background, the key techniques related in designing real-time monitor and control system based on WDM (Wavelength Division Multiplexing) are studied.
介绍了用于探测对流层大气臭氧的L6 2 5差分吸收激光雷达系统,叙述了该激光雷达的结构、探测大气臭氧的原理和数据处理方法。
The L625 differential absorption lidar (DIAL) is introduced to measure vertical ozone profiles in the troposphere. System structure, measurement principle and data processing are also described.
本文在参考了大量文献的基础上,对差分吸收激光雷达探测化学毒剂的原理进行了深入分析,对影响激光回波强度的各种因素进行了详细的讨论。
Based on much literature, the principle of the DIAL system in detecting chemicals and the various factors that influence the laser signal intensity are investigated in detail in this paper.
把此方法应用到激光雷达中来,得出了差分吸收激光雷达和拉曼雷达探测污染气体最小浓度估算公式,并把它们与已有的估算公式进行了比较,指出了原有估算公式的不足。
Using this method, minimum pollutant gas concentration formula is got by differential absorption lidar and Raman lidar, their comparison with ones in some literatures is made and shortage in...
文中提出了一种新的激光雷达测量臭氧的方法:双差分吸收方法。
The present paper describes the new method of ozone measurement, dual differential absorption lidar (dual-DIAL).
文中提出了一种新的激光雷达测量臭氧的方法:双差分吸收方法。
The present paper describes the new method of ozone measurement, dual differential absorption lidar (dual-DIAL).
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