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基于GRAPES四维变分的静止轨道微波观测系统模拟试验研究
引用本文:陈柯,洪鹏飞,韩威,李泽宇,王皓,王金成,陈昊,张志清,谢振超. 基于GRAPES四维变分的静止轨道微波观测系统模拟试验研究[J]. 气象学报, 2021, 79(5): 769-785. DOI: 10.11676/qxxb2021.048
作者姓名:陈柯  洪鹏飞  韩威  李泽宇  王皓  王金成  陈昊  张志清  谢振超
作者单位:华中科技大学,武汉,430074;国家气象中心,北京,100081;中国气象局数值预报中心,北京,100081;江苏省气象台,南京,210000;国家卫星气象中心,北京,100081;上海航天电子技术研究所,上海,201109
基金项目:国家自然科学基金项目(42075155、41675108)
摘    要:地球静止轨道微波观测同时具有高频次、大视场和穿透云雨的全天候观测能力,因此中国在规划第二代静止轨道气象卫星“风云四号”系列时已经明确提出对静止轨道微波观测的需求。基于中国候选的50、118、183、380和425 GHz五频段静止轨道微波辐射计载荷方案,开展了地球静止轨道微波观测系统模拟试验,理解其观测时间分辨率、频段选取和观测误差对台风预报的影响。试验基于GRAPES全球四维变分同化系统,同化静止轨道微波模拟观测资料,以2018年台风“玛利亚”和“山竹”为例分析了静止轨道微波资料同化对台风预报的影响。试验结果表明,对于静止轨道微波资料同化应用,提高观测资料的时间分辨率、增加通道数量和降低噪声水平能够有效提升台风数值预报性能。 

关 键 词:静止轨道微波观测  观测系统模拟试验  资料同化  GRAPES  四维变分
收稿时间:2020-04-26
修稿时间:2021-05-25

Geostationary microwave observation system simulation experiments using the GRAPES 4D-Var
CHEN Ke,HONG Pengfei,HAN Wei,LI Zeyu,WANG Hao,WANG Jincheng,CHEN Hao,ZHANG Zhiqing,XIE Zhenchao. Geostationary microwave observation system simulation experiments using the GRAPES 4D-Var[J]. Acta Meteorologica Sinica, 2021, 79(5): 769-785. DOI: 10.11676/qxxb2021.048
Authors:CHEN Ke  HONG Pengfei  HAN Wei  LI Zeyu  WANG Hao  WANG Jincheng  CHEN Hao  ZHANG Zhiqing  XIE Zhenchao
Affiliation:1.Huazhong University of Science and Technology,Wuhan 430074,China2.National Meteorological Center,Beijing 100081,China3.Numerical Weather Prediction Center of CMA,Beijing 100081,China4.Jiangsu Meteorological Observatory,Nanjing 210000,China5.National Satellite Meteorological Center,Beijing 100081,China6.Shanghai Aerospace Electronics Technology Institute,Shanghai 201109,China
Abstract:The geostationary microwave (GEO-MW) observation system has the all-weather observation capability with high frequency of real-time observation, large field-of-view and cloud-penetrating ability, which makes it a necessity in China''s second-generation geostationary meteorology satellite "Fengyun-4" series development. Observation System Simulation Experiments (OSSEs) are conducted to understand how the characteristics of GEO-MW such as the time resolution, the frequency band selection and observation errors affect the performance of typhoon numerical prediction based on the candidate instrumental concept for China GEO-MW satellite mission with five bands of 50, 118, 183, 380 and 425 GHz. The OSSEs assimilate the simulated GEO-MW observation data using the GRAPES global 4D-Var data assimilation system and demonstrate the impact of GEO-MW observations on forecasts of two typhoon cases, "Maria" and "Mangkhut", in 2018. The experiment results indicate that improving the time resolution, increasing the number of frequency band and decreasing the noise level of GEO-MW observation data can effectively improve the performance of typhoon numerical prediction by the application of data assimilation.
Keywords:Geostationary microwave observation  Observation system simulation experiment  Data assimilation  GRAPES  4D-Var
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