大气科学学报
大氣科學學報
대기과학학보
JOURNAL OF NANJING INSTITUTE OF METEOROLOGY
2012年
4期
385-390
,共6页
资料同化%MGS%SEVIRI%GOES成像仪%NCEP%GDAS%CRTM
資料同化%MGS%SEVIRI%GOES成像儀%NCEP%GDAS%CRTM
자료동화%MGS%SEVIRI%GOES성상의%NCEP%GDAS%CRTM
data assimilation%MGS SEVIRI%GOES Imager%NCEP GDAS%CRTM
首次将MSG-2(Meteosat Second Generation-2)卫星上的旋转增强可见光及红外成像仪(Spin—ning Enhanced Visibleand Infrared Imager,SEVIRI)的观测资料同化到美国国家环境预报中心(Na—tional Centers for Environmental Prediction,NCEP)全球资料同化系统(globaldataassimilationsys—tern,GDAS)中。对当前的地球静止业务环境卫星(Geostationary Operational Environmental Satel—lite,GOES)成像仪资料的同化问题也进行了进一步探讨。利用CRTM(The Community Radiative Transfer Model)模式,对SEVIRI辐射率观测资料进行了模拟。为了对红外辐射率资料进行模拟,CRTM模式中的几个关键部分得到改进,例如:动态更新地面发射率资料以及采用了快速精确的气体吸收模块。为了改进对SEVIRI和GOES成像仪辐射率资料的模拟效果,采用了GSICS(The Global Space—Based Inter—Calibration System)标定订正。初步研究结果表明,包含对SEVIRI辐射率资料的水汽通道(6.25和7.35μm)和二氧化碳通道(13.40μm)的同化对GFS(Global Forecast System)6d预报具有显著的正影响;而对其他5个SEVIRI红外窗口通道资料的同化则减小了这种正影响。通过应用GSICS标定算法,订正了SEVIRI和GOES-12成像仪观测资料的偏差,提高了对GFS预报的影响。此外,还需作进一步研究来提高对SEVIRI红外窗口通道辐射率资料同化的有效性。
首次將MSG-2(Meteosat Second Generation-2)衛星上的鏇轉增彊可見光及紅外成像儀(Spin—ning Enhanced Visibleand Infrared Imager,SEVIRI)的觀測資料同化到美國國傢環境預報中心(Na—tional Centers for Environmental Prediction,NCEP)全毬資料同化繫統(globaldataassimilationsys—tern,GDAS)中。對噹前的地毬靜止業務環境衛星(Geostationary Operational Environmental Satel—lite,GOES)成像儀資料的同化問題也進行瞭進一步探討。利用CRTM(The Community Radiative Transfer Model)模式,對SEVIRI輻射率觀測資料進行瞭模擬。為瞭對紅外輻射率資料進行模擬,CRTM模式中的幾箇關鍵部分得到改進,例如:動態更新地麵髮射率資料以及採用瞭快速精確的氣體吸收模塊。為瞭改進對SEVIRI和GOES成像儀輻射率資料的模擬效果,採用瞭GSICS(The Global Space—Based Inter—Calibration System)標定訂正。初步研究結果錶明,包含對SEVIRI輻射率資料的水汽通道(6.25和7.35μm)和二氧化碳通道(13.40μm)的同化對GFS(Global Forecast System)6d預報具有顯著的正影響;而對其他5箇SEVIRI紅外窗口通道資料的同化則減小瞭這種正影響。通過應用GSICS標定算法,訂正瞭SEVIRI和GOES-12成像儀觀測資料的偏差,提高瞭對GFS預報的影響。此外,還需作進一步研究來提高對SEVIRI紅外窗口通道輻射率資料同化的有效性。
수차장MSG-2(Meteosat Second Generation-2)위성상적선전증강가견광급홍외성상의(Spin—ning Enhanced Visibleand Infrared Imager,SEVIRI)적관측자료동화도미국국가배경예보중심(Na—tional Centers for Environmental Prediction,NCEP)전구자료동화계통(globaldataassimilationsys—tern,GDAS)중。대당전적지구정지업무배경위성(Geostationary Operational Environmental Satel—lite,GOES)성상의자료적동화문제야진행료진일보탐토。이용CRTM(The Community Radiative Transfer Model)모식,대SEVIRI복사솔관측자료진행료모의。위료대홍외복사솔자료진행모의,CRTM모식중적궤개관건부분득도개진,례여:동태경신지면발사솔자료이급채용료쾌속정학적기체흡수모괴。위료개진대SEVIRI화GOES성상의복사솔자료적모의효과,채용료GSICS(The Global Space—Based Inter—Calibration System)표정정정。초보연구결과표명,포함대SEVIRI복사솔자료적수기통도(6.25화7.35μm)화이양화탄통도(13.40μm)적동화대GFS(Global Forecast System)6d예보구유현저적정영향;이대기타5개SEVIRI홍외창구통도자료적동화칙감소료저충정영향。통과응용GSICS표정산법,정정료SEVIRI화GOES-12성상의관측자료적편차,제고료대GFS예보적영향。차외,환수작진일보연구래제고대SEVIRI홍외창구통도복사솔자료동화적유효성。
Infrared(IR) observations from Spinning Enhanced Visible and Infrared Imager(SEVIRI) on board Meteosat Second Generation(MSG)-2 satellite are assimilated into NCEP (National Centers for Environmental Prediction) global data assimilation system( GDAS ). The assimilation of current Geosta- tionary Operational Environmental Satellite(GOES) Imager data was also reinvestigated. The Commu- nity Radiative Transfer Model(CRTM) was used as observation operator for the simulation of SEVIRI radiance observations. The CRTM was enhanced with several critical components for IR radiance simu- lation, such as a dynamically-updated land surface emissivity data, as well as fast and accurate gaseous absorption modules. The Global Space-Based Inter-Calibration System ( GSICS ) calibration corrections were applied to improve the simulation of SEVIRI and GOES Imager radiances. Preliminary results show that inclusions of the SEVIRI radiances at water CO2channel( 13.40 μm) in Global Forecast System(GFS) vapor channels ( 6. 25 and 7.35 μm ) and produced significant positive impacts on the six-day forecasts. Assimilation of other five SEVIRI IR window channels in GFS reduces the positive impact. By applying GSICS calibration algorithm to correct SEVIRI and GOES-12 Imager observations biases, the impacts on GFS forecast were improved. Further studies are being carried out to improve the effective assimilation of SEVIRI IR window channels radiances.
