Precision analysis of atmospheric precipitation inversion based on super fast ephemeris
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摘要: 水汽是预报某些灾害性天气的重要依据,因此及时获得高分辨率的水汽产品对精准预报天气具有至关重要的意义.针对最终精密星历更新速度较慢、时延较长,无法满足实时反演大气可降水量的要求,提出一种利用超快速星历代替最终精密星历反演大气可降水量的方法:基于地基GNSS反演大气可降水量的原理,利用GAMIT软件,根据国际GNSS服务(IGS)网站提供的不同精度的星历产品获得大气可降水量,并与气象探空站所获得的大气可降水量对比分析.研究结果表明,利用超快速星历所获得的大气可将水量与最终精密星历一致,二者平均差值优于0.1 mm,且与探空站测得的大气可降水量值非常一致,其精度可以满足天气预报的需求.Abstract: Water vapor is an important parameter for weather forecast weather, so it is important to obtain high resolution water vapor products in time. Aiming at the slow update speed and long delay of final precise ephemeris, which can't meet the requirement of real-time retrieving atmospheric precipitable water, a method of retrieving atmospheric precipitable water by using ultra-fast ephemeris instead of final precise ephemeris is proposed. Based on the principle of ground-based GNSS inversion of atmospheric precipitable water, using GAMIT software, the atmospheric precipitable water is obtained according to the ephemeris products with different precision provided by the international GNSS service (IGS) website, and compared with the atmospheric precipitable water obtained by meteorological sounding station. The results show that the atmospheric water obtained from the super fast ephemeris can be consistent with the final precise ephemeris. The average difference is smaller than 0.1 mm, and is consistent with the atmospheric precipitable water measured by the sounding station. The accuracy of the two ephemeris can meet the needs of weather forecasting.
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[1] BEVIS M,BUSINGER S,HERRING T A,et al.GPS meteorology:Remotesensing of atmospheric water vapor suing the global positioning system[J].Journal of Geophysical Research Atmospheres,1992,97(D14):15787-15801. DOI: 10.1029/92 JD 01517. [2] 毛节泰. GPS的气象应用[J].气象科技,1993(4):45-49. [3] 宋淑丽,朱文耀.区域GPS网实时计算可降水量的若干问题[J].中国科学院上海天文台年刊,2003(24):20-27. [4] 徐韶光,熊永良,刘宁,等.利用地基GPS获取实时可降水量[J].武汉大学学报(信息科学版),2011,36(4):407-411. [5] 谭阳涛,岳建平.基于超快速星历的GAMIT高精度基线解算研究[J].地理空间信息,2019,17(3):75-78,10. [6] 高旺,高成发,潘树国,等.基于广播星历的GAMIT基线解算方法及精度分析[J].测绘工程,2014,23(8):54-57. [7] 赖允斌,赵春梅,李子申.不同星历下实时精密单点定位精度分析[J].测绘通报,2015(8):9-12. [8] 何帆,高成发,潘树国,等.不同星历和钟差产品的精密单点定位结果分析[J].导航定位学报,2015,3(4):79-84. [9] 李勇军,丁士俊.不同星历误差对静态单点定位精度的影响与分析[J].测绘工程,2010,19(3):17-19,23. [10] 吴琼宝,赵春梅,田华.不同星历下低轨卫星轨道精度分析[J].导航定位学报,2017,5(4):21-24. [11] 于胜杰,万蓉,付志康.气压对 GPS 大气可降水量解算的影响分析[J].大地测量与地球动力学,2013,33(2): 87-95. [12] 姚宜斌,郭健健,张豹,等. 湿延迟与可降水量转换系数的全球经验模型[J]. 武汉大学学报(信息科学版),2016,41(1): 45-51. [13] 张双成,李振宇,戴凯阳,等.北京地区GPS水汽变化与雾霾的相关性[J].测绘科学,2016,41(8):43-47. [14] 张双成,刘经南.顾及双差残差反演 GPS 信号方向的斜路径水汽含量[J].武汉大学学报(信息科学版),2009,34 (1): 100-104. [15] 刘盼,刘智敏,张明敏,等.不同IGS星历产品对地基GPS反演水汽的影响[J].测绘科学,2018,43(12):17-22. [16] 陈兆林,孙钦帮,张书毕,等.IGS超快星历对GPS近实时反演水汽精度的影响研究[J].气象科学,2017,37(5):652-658. -
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