| 长三角地区GNSS大气水汽转换系数模型精化研究 |
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| 引用本文: | 侯晓玲,张雯雯,李黎,周嘉陵,刘宇,高颖,管仲培.长三角地区GNSS大气水汽转换系数模型精化研究[J].大地测量与地球动力学,2021,41(1):17-20. |
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| 作者姓名: | 侯晓玲 张雯雯 李黎 周嘉陵 刘宇 高颖 管仲培 |
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| 作者单位: | 苏州科技大学环境科学与工程学院,苏州市学府路99号,215009;苏州科技大学环境科学与工程学院,苏州市学府路99号,215009;苏州科技大学环境科学与工程学院,苏州市学府路99号,215009;苏州科技大学北斗导航与环境感知研究中心,苏州市学府路99号,215009;江苏省气象科学研究所,南京市昆仑路16号,210009;苏州科技大学环境科学与工程学院,苏州市学府路99号,215009;苏州科技大学环境科学与工程学院,苏州市学府路99号,215009;苏州科技大学环境科学与工程学院,苏州市学府路99号,215009 |
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| 基金项目: | 江苏省高等学校大学生创新训练省级重点项目;江苏省自然科学基金;湖南省自然科学基金;苏州科技大学课程教学综合改革项目 |
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| 摘 要: | 根据长三角地区7个探空站基于积分法计算的2016年大气水汽转换系数(K值),利用多元线性拟合分别构建不顾及高程的Emardson-I精化模型和顾及高程的Emardson-H精化模型,并用2017年的K值验证两种模型的精度。实验结果表明,Emardson-H预报模型的MAE和RMS分别为0.001 297和0.001 616,略优于Emardson-I预报模型的0.001 303和0.001 620;基于两种新模型的GNSS-PWV反演精度相当,其MAE和RMS均优于0.6 mm。因此,Emardson-I模型以其无需实测气象参数和无需顾及高程在长三角地区的地基GNSS气象学实时应用中具有更好的效率优势。
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| 关 键 词: | 长三角地区 GNSS 可降水量 水汽转换系数 模型精化 |
Model Refinement of GNSS Atmospheric Water VaporConversion Coefficient in Yangtze River Delta |
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| HOU Xiaoling,ZHANG Wenwen,LI Li,ZHOU Jialing,LIU Yu,GAO Ying,GUAN Zhongpei.Model Refinement of GNSS Atmospheric Water VaporConversion Coefficient in Yangtze River Delta[J].Journal of Geodesy and Geodynamics,2021,41(1):17-20. |
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| Authors: | HOU Xiaoling ZHANG Wenwen LI Li ZHOU Jialing LIU Yu GAO Ying GUAN Zhongpei |
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| Institution: | (School of Environmental Science and Engineering,Suzhou University of Science and Technology,99 Xuefu Road,Suzhou 215009,China;Research Center of Beidou Navigation and Environmental Romote Sensing,Suzhou University of Science and Technology,99 Xuefu Road,Suzhou 215009,China;Jiangsu Research Institute of Meteorological Sciences,16 Kunlun Road,Nanjing 210009,China) |
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| Abstract: | The atmospheric water vapor conversion coefficient (K) is one of the key parameters affecting the precision of GNSS precipitable water vapor (GNSS-PWV) inversed from ground-based GNSS meteorology. Based on the data from 7 radiosonde stations in the Yangtze river delta, we calculate the K values from 2016 by numerical integration and use a multivariate linear fitting method to establish two new models. One model is elevation independent (Emardson-I), and the other one is elevation dependent (Emardson-H). Finally, we validate these two new models using K values from 2017. The experimental results show that the MAE and RMS of the Emardson-H forecasting model are 0.001 297 and 0.001 616, which are slightly better than the Emardson-I forecasting model (0.001 303 and 0.001 620 respectively). GNSS-PWV inversion precisions of the two models are equivalent, and their MAE and RMS are both better than 0.6 mm. Therefore, as for the GNSS-PWV inversion in Yangtze river delta, Emardson-I model has better efficiency advantages in real-time application of ground-based GNSS meteorology as there is no need to measure meteorological parameters and elevation. |
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| Keywords: | Yangtze river delta GNSS precipitable water vapor water vapor conversion coefficient model refinement |
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