A rapid assessment of MWRI-RM/FY3G brightness temperature

IF 2.3 4区 地球科学 Q3 METEOROLOGY & ATMOSPHERIC SCIENCES
Wenying He , Xinran Xia , Shengli Wu , Peng Zhang , Hongbin Chen , Xiang'ao Xia , Yuquan Zhou , Miao Cai
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引用次数: 0

Abstract

The Microwave Radiation Imager for the Rainfall Mission (MWRI-RM) onboard the FengYun 3G satellite (FY3G), launched in April 2023, will provide massive brightness temperature (Tb) measurements at 17 frequencies from 10.65 GHz to 183 GHz. The operationally calibrated MWRI-RM Level 1B Tb data have been released since 23 October 2023. The MWRI-RM measurements are compared with the simultaneous measurements from the GPM Microwave Imager (GMI) to provide a first overview of the MWRI-RM measurement quality. A radiative transfer model (RTM) is performed for the double difference (DD) analysis. The results show that the Tbs of MWRI-RM are in good agreement with those of GMI, with mean bias error (MBE) and root-mean-square error (RMSE) values of less than 1 K for most channels. Larger differences are observed at the horizontal polarization of 36.5 and 89 GHz, with an RMSE of about 2 K. RTM simulations reflect that the Tb difference between MWRI-RM and GMI due to the different Earth incidence angle of the sensors is about 0.5 K over the sea. The DD analysis results suggest that MWRI-RM demonstrates quite similar performance to GMI for most channels, especially for the first used channels at 166 GHz and 183 GHz.

摘要

2023年4月发射的FY-3G上搭载17个频率的测雨微波成像仪 (MWRI-RM) , 其业务定标的微波亮温 (Tb) 数据于2023年10月23日公开发布. 本文比对了发布10天的MWRI-RM与全球降水测量 (GPM) 卫星上的微波成像仪 (GMI) 相匹配的Tb数据, 并借助辐射传输模式进行双差分 (DD) 交叉定标分析, 旨在快速评估新一代MWRI-RM观测数据质量. 观测比较表明, MWRI-RM 与 GMI测量的Tb一致性很好, 大多通道的平均偏差 (MBE) 和均方根误差 (RMSE) 均小于 1 K. 两种传感器由于观测角度略有不同在水面产生约 0.5 K差异. DD分析也展示出MWRI-RM的大多数通道性能与GMI相当接近, 尤其是首次启用的高频166 GHz和183 GHz.

Abstract Image

对 MWRI-RM/FY3G 亮度温度的快速评估
2023年4月发射的风云三号G卫星(FY3G)上搭载的降雨任务微波辐射成像仪(MWRI-RM)将提供从10.65 GHz到183 GHz的17个频率的大规模亮度温度(Tb)测量。经运行校准的 MWRI-RM 1B 级 Tb 数据已于 2023 年 10 月 23 日发布。MWRI-RM 测量数据与 GPM 微波成像仪(GMI)的同步测量数据进行了比较,以提供 MWRI-RM 测量质量的初步概览。在双差(DD)分析中使用了辐射传递模型(RTM)。结果表明,MWRI-RM 的 Tbs 与 GMI 的 Tbs 非常一致,大多数信道的平均偏差误差 (MBE) 和均方根误差 (RMSE) 值小于 1 K。RTM 模拟结果表明,由于传感器的地球入射角不同,MWRI-RM 和 GMI 的 Tb 值在海面上相差约 0.5 K。DD 分析结果表明,MWRI-RM 在大多数信道上的性能与 GMI 非常相似,尤其是在 166 GHz 和 183 GHz 两个首次使用的信道上。摘要2023年4月发射的FY-3G上搭载17个频率的测雨微波成像仪 (MWRI-RM) , 其业务定标的微波亮温 (Tb) 数据于2023年10月23日公开发布。本文比对了发布10天的MWRI-RM与全球降水测量 (GPM) 卫星上的微波成像仪 (GMI) 相匹配的Tb数据, 并借助辐射传输模式进行双差分 (DD) 交叉定标分析, 旨在快速评估新一代MWRI-RM观测数据质量。观测比较表明, MWRI-RM 与 GMI 测量的 Tb 一致性很好, 大多通道的平均偏差 (MBE) 和均方根误差 (RMSE) 均小于 1 K. 两种传感器由于观测角度略有不同在水面产生约 0.5 K 的差异。DD分析也展示出MWRI-RM的大多数通道性能与GMI相当接近,尤其是首次启用的高频166 GHz和183 GHz。
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来源期刊
Atmospheric and Oceanic Science Letters
Atmospheric and Oceanic Science Letters METEOROLOGY & ATMOSPHERIC SCIENCES-
CiteScore
4.20
自引率
8.70%
发文量
925
审稿时长
12 weeks
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