| 利用地基北斗站反演大气水汽总量的精度检验 |
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| 引用本文: | 郭巍,尹球,杜明斌,刘敏.利用地基北斗站反演大气水汽总量的精度检验[J].应用气象学报,2015,26(3):346-353. |
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| 作者姓名: | 郭巍 尹球 杜明斌 刘敏 |
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| 作者单位: | 上海市卫星遥感与测量应用中心,上海 201100 |
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| 基金项目: | 上海市气象局启明星课题“地基北斗资料的质量检验和初步应用”,国家自然科学基金面上项目(41475040),中国气象局气象行业专项(201306102),上海市气象局科技面上项目(ms201414 |
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| 摘 要: | 采用上海市气象局建立的北斗气象站的2014年观测数据和我国自主研发的精密导航数据处理软件PANDA (position and navigation data analysist) 实现了基于北斗数据的大气水汽总量 (precipitable water vapor,PWV) 反演,并将利用北斗卫星信号解算的大气水汽总量 (WBD) 结果与目前较为成熟的GPS卫星反演结果 (WGPS) 和无线电探空反演结果 (WRadio) 进行对比,研究表明:反演的WBD与WGPS的均方根误差均低于3.5 mm,反演的WBD与WRadio的均方根误差为3.6 mm,两种对比方式的相关系数均在0.95以上,反演方法以及地理位置的差异对于反演结果有一定影响;反演的WBD能够很好地反映出大气中水汽的变化特征,对于气象短时临近预报、气候分析有指示作用。
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| 关 键 词: | 北斗卫星导航系统 大气水汽总量 GPS |
| 收稿时间: | 2014-09-22 |
The Accuracy Test of Retrieved Precipitation Water Vapor Based on Beidou Observations |
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| Guo Wei,Yin Qiu,Du Mingbin and Liu Min.The Accuracy Test of Retrieved Precipitation Water Vapor Based on Beidou Observations[J].Quarterly Journal of Applied Meteorology,2015,26(3):346-353. |
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| Authors: | Guo Wei Yin Qiu Du Mingbin and Liu Min |
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| Affiliation: | Shanghai Center for Satellite Remote Sensing Applications, Shanghai 201100 |
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| Abstract: | The Beidou Navigation Satellite System is an independent system under construction in China. Observations of Beidou can be used to retrieve atmospheric precipitation water vapor (PWV) and provide information of water vapor with high precise and high real time. Beidou meteorological observation network is built by Shanghai Meteorological Bureau with PANDA (position and navigation data analysist) and M300C_GNSS, UNICORE-UB240 Beidou receivers, and the atmospheric precipitation water vapor is acquired. First, satellite data is received by Beidou meteorological observations and satellite orbit files are downloaded synchronously, and then zenith total delay (ZTD) is calculated by PANDA modules, and at last the PWV is retrieved based on surface meteorological parameters observed by automatic weather stations.Results of PWV retrieved by Beidou data (WBD) are compared with both PWV retrieved by GPS data (WGPS) and radiosonde data (WRadio), as the technology of them are mature. WGPS is retrieved by two methods: One is GAMIT (GPS at MIT) with the method of double difference phase observation, the other is PANDA with the method of precise point positioning. WRadio is retrieved by the method of water vapor integration from different pressure levels. The horizontal distance difference between corresponding observations is no more than 10 km, the elevation difference between GPS and Beidou observations is no more than 5 m, and the elevation difference between radiosonde and Beidou observations is about 30 m. Results show that the root mean square error (RMSE) between WBD and WGPS is no more than 3.5 mm, the correlation coefficient between them is over 0.95, and the RMSE between WBD and WGPS-P is smaller than that between WBD and WGPS-G, which means that the retrieve method has certain influence on results of PWV. The RMSE between WBD and WGPS-Radio is about 3.6 mm, the correlation coefficient between them is over 0.96, and WBD is on the high side compared with WGPS-Radio. WBD can well reflect the temporal changing characteristics of water vapor in the atmosphere and has corresponding relations with precipitation, which plays an important role in short-term weather forecast and climate analysis. The accuracy of WBD relies much on the precise ephemeris of Beidou.With the development of the Beidou Navigation Satellite System, the accuracy of PWV based on Beidou observations can surpass that based on GPS observations. Therefore, making the best of the Beidou Navigation Statellite System and improving meteorological service with WBD is important for the modernization of meteorology. |
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