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61.
Jinghong Liu Yibin Yao Jizhang Sang 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2018,61(1):402-412
The Global Positioning System (GPS) has been applied in meteorology to monitor the change of Precipitable Water Vapor (PWV) in atmosphere, transformed from Zenith Wet Delay (ZWD). A key factor in converting the ZWD into the PWV is the weighted mean temperature (), which has a direct impact on the accuracy of the transformation. A number of Bevis-type models, like and type models, have been developed by statistics approaches, and are not able to clearly depict the relationship between and the surface temperature, . A new model for , called weighted mean temperature norm model (abbreviated as norm model), is derived as a function of , the lapse rate of temperature, δ, the tropopause height, , and the radiosonde station height, . It is found that is better related to through an intermediate temperature. The small effects of lapse rate can be ignored and the tropopause height be obtained from an empirical model. Then the norm model is reduced to a simplified form, which causes fewer loss of accuracy and needs two inputs, and . In site-specific fittings, the norm model performs much better, with RMS values reduced averagely by 0.45 K and the Mean of Absolute Differences (MAD) values by 0.2 K. The norm model is also found more appropriate than the linear models to fit in a large area, not only with the RMS value reduced from 4.3 K to 3.80 K, correlation coefficient increased from 0.84 to 0.88, and MAD decreased from 3.24 K to 2.90 K, but also with the distribution of simplified model values to be more reasonable. The RMS and MAD values of the differences between reference and computed PWVs are reduced by on average 16.3% and 14.27%, respectively, when using the new norm models instead of the linear model. 相似文献
62.
对流层延迟修正误差是深空干涉测量的重要误差源之一。通过修正对流层经典天顶延迟模型和Niell映射函数NMF(Niell Mapping Function)构建了一种高精度区域对流层延迟模型。首先,结合我国深空网喀什深空站对流层延迟实测数据,对Saastamoinen模型的适用性进行分析,通过线性最小二乘拟合修正天顶干延迟参数,模型精度相对改善29.6%;然后,针对NMF低仰角情况下映射偏差较大的问题,构建偏差函数模型,显著改善了低仰角下的映射性能,经实测数据验证:仰角在0°~30°时,对流层延迟模型偏差相对改善约30%。改进后的对流层区域模型估计精度高,可为我国深空干涉测量对流层延迟修正提供参考。 相似文献