报告详情
Data assimilation of adaptive observation and application for typhoon forecasts over the Western North Pacific
编号:3956
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更新:2023-04-21 00:51:41 浏览:174次
张贴报告
报告开始:2023年05月06日 08:01(Asia/Shanghai)
报告时间:1min
所在会场:[SP] 张贴报告专场 [SP-13-1] 13、大气物理与气象气候
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摘要
In this study, we added the post-processing module of the Ensemble Transform Sensitivity (ETS) to identify
regions sensitive to adaptive observations of different variables at different levels for typhoon forecasts. We
selected five cases between 2015 and 2020 over the Western North Pacific (WNP) using 50 ensemble forecasts
from the European Center provided by the THORPEX Interactive Grand Global Ensemble (TIGGE) portal.
Furthermore, intercomparison experiments were performed to explore the impact of adaptive observational data
assimilation with conventional observations and Himawari-8 data over the sensitive (SEN), non-sensitive
(NOSEN), and all studied regions (ALL) on typhoon forecasts using the Gridpoint Statistical Interpolation
(GSI) assimilation system of the National Centers for Environmental Prediction (NCEP) of United States. The
results show that the assimilation of less observational data in the SEN areas can achieve the forecast effect of
assimilation in ALL regions, the intensity error can be reduced by approximately 15%, and the track error is
reduced in some cases. Finally, detailed analysis of the circulation field and flux perspectives for Typhoon
Lekima, which occurred in August 2019 over the WNP, confirmed our conclusion. At 1800 UTC on August 8, the
data assimilation was performed over the SEN, NOSEN, and ALL areas. The initial circulation field, in which the
vorticity increased in the southwest of the typhoon and decreased in the southeast, benefited the westward
movement of the typhoon. The 18 h forecast indicated that the circulation in the SEN area assimilation experiment
showed a negative vorticity increase in the southwest side of the typhoon and positive potential temperature
as well as water vapor forecast differences on its north side, which contrasted with the results obtained
in the NOSEN and ALL experiments. This provided favorable weather conditions for the typhoon to change
direction and move northward. Targeted observation experiments investigating Typhoon Lekima indicated that
assimilating observations of sensitive areas greatly improves typhoon forecasting and assimilation efficiency.
However, the ALL experiment yielded the best forecast among the three cases.
regions sensitive to adaptive observations of different variables at different levels for typhoon forecasts. We
selected five cases between 2015 and 2020 over the Western North Pacific (WNP) using 50 ensemble forecasts
from the European Center provided by the THORPEX Interactive Grand Global Ensemble (TIGGE) portal.
Furthermore, intercomparison experiments were performed to explore the impact of adaptive observational data
assimilation with conventional observations and Himawari-8 data over the sensitive (SEN), non-sensitive
(NOSEN), and all studied regions (ALL) on typhoon forecasts using the Gridpoint Statistical Interpolation
(GSI) assimilation system of the National Centers for Environmental Prediction (NCEP) of United States. The
results show that the assimilation of less observational data in the SEN areas can achieve the forecast effect of
assimilation in ALL regions, the intensity error can be reduced by approximately 15%, and the track error is
reduced in some cases. Finally, detailed analysis of the circulation field and flux perspectives for Typhoon
Lekima, which occurred in August 2019 over the WNP, confirmed our conclusion. At 1800 UTC on August 8, the
data assimilation was performed over the SEN, NOSEN, and ALL areas. The initial circulation field, in which the
vorticity increased in the southwest of the typhoon and decreased in the southeast, benefited the westward
movement of the typhoon. The 18 h forecast indicated that the circulation in the SEN area assimilation experiment
showed a negative vorticity increase in the southwest side of the typhoon and positive potential temperature
as well as water vapor forecast differences on its north side, which contrasted with the results obtained
in the NOSEN and ALL experiments. This provided favorable weather conditions for the typhoon to change
direction and move northward. Targeted observation experiments investigating Typhoon Lekima indicated that
assimilating observations of sensitive areas greatly improves typhoon forecasting and assimilation efficiency.
However, the ALL experiment yielded the best forecast among the three cases.
关键词
Data assimilation,Adaptive observation,ETS,Sensitive area,Typhoon forecasting
报告人
陈思奇
南京信息工程大学稿件作者
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重要日期
-
会议日期
05月05日
2023
至05月08日
2023
-
03月31日 2023
初稿截稿日期
-
05月25日 2023
注册截止日期
主办单位
青年地学论坛理事会
中国科学院青年创新促进会地学分会
中国科学院青年创新促进会地学分会
承办单位
武汉大学
中国科学院精密测量科学与技术创新研究院
中国地质大学(武汉)
中国科学院精密测量科学与技术创新研究院
中国地质大学(武汉)
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