针对COSMIC(Constellation Observation System of Meteorology Ionosphere and Climate)掩星反演的大气温度和水汽压二级资料,利用常规探空观测和NCEP(National Centers for Environmental Prediction)分析资料分别进行质量检验分析,以揭示反演资料质量的海陆差异、随纬度和高度变化等三维空间特征。结果显示:我国区域反演资料的温度略低于探空观测与NCEP分析资料,温度与水汽压相对于检验资料的均方根误差较小;全球范围内,反演大气温湿资料的质量随高度和纬度的不同而存在明显差异,而且海洋和陆地上质量的水平和垂直分布特征也存在显著不同。总体上看,COSMIC反演大气温湿资料具有良好的可靠性与精确度,可作为我国数值预报资料同化的新资料,反演温湿资料的质量特征也可为COSMIC资料同化的质量控制和垂直稀疏化方案的设计提供科学依据。 相似文献
This study investigates the spatial and temporal variability of global stratospheric gravity waves (GWs) and the characteristics of GW activity during sudden stratospheric warming (SSW) using the GPS radio occultation measurements from the COSMIC mission during September 2006 to May 2013. Corresponding to the COSMIC RO observational window and analysis method, GW potential energy (Ep) with vertical scales no shorter than ~2 km is resolved. It is found that the distributions of GW Ep over 20-30 km and 30-38 km show similar spatial and seasonal variations. The variations of GW Ep with altitude and latitude along the westerly wind are identified in different seasons over 60°-80°W. In the middle and high latitudes, seasonal cycles are distinct in the time-latitude and time-altitude distributions of GW activities, which show larger Ep in winters when westerly wind dominates and smaller Ep in summers when easterly wind dominates. The influence of quasi-biennial oscillation on GW activity is recognized in the tropics. GW Ep enhances closely following the occurrence of minor SSW events; while during major events, GW Ep may not enhance, and sometimes may even weaken, in the regions where reversals of zonal wind occur, probably caused by the filtering impact of the 0 m s-1 wind level on the GWs. 相似文献
COSMIC is a joint Taiwan–US mission to study the atmosphere using the Global Positioning System (GPS) occultation technique.
Improved formulas are developed for the radial, along-track, and cross-track perturbations, which are more accurate than the
commonly used order-zero formulas. The formulas are used to simulate gravity recovery using the geodetic GPS data of COSMIC
in the operational phase. Results show that the EGM96 model can be improved up to degree 26 using 1 year of COSMIC data. TOPEX/POSEIDON
altimeter data are used to derive a temporal gravity variation. COSMIC cannot reproduce this gravity variation perfectly because
of data noise and orbital configuration, but the recovered field clearly shows the gravity signature due to mass movement
in an El Ni?o.
Received: 3 March 2000 / Accepted: 10 November 2000 相似文献