Troposphere delay error could be accurately determined using WVR.
使用WVR能精确测定对流层时延误差。
At the same time troposphere delay is also the focus of GPS meteorology and numerical weather forecasting.
同时对流层延迟也是GPS气象学、数值天气预报所关心的焦点问题。
Several usual models for troposphere delay and ionosphere delay are discussed and their influences to different time transfer methods are analyzed.
本文讨论了几种常用的对流层延迟和电离层延迟模型,分析了它们对各种时间比对方法的影响。
Atmosphere Refraction, Troposphere Delay, Ionosphere Delay, Local Atmosphere Mode, Atmosphere Predictive Mode, Corrective Grid of Electron Content.
大气折射,对流层延迟,电离层延迟,局部大气模式,大气预报模式,电子含量格网改正。
The analysis showed that the wet component which comprise of 10% of troposphere delay varies quickly in temporal and space and is a studying difficulty of troposphere delay.
分析表明对流层延迟的湿分量在时间和空间上变化较快,占对流层延迟量10%左右的湿分量是研究的难点。
The analysis showed that the wet component which comprise of 10% of troposphere delay varies quickly in temporal and space and is a studying difficulty of troposphere delay.
分析表明对流层延迟的湿分量在时间和空间上变化较快,占对流层延迟量10%左右的湿分量是研究的难点。
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