气象科技进展
氣象科技進展
기상과기진전
Advances in Meteorological Science and Technology
2015年
4期
22-34
,共13页
台风%强度估计%Dvorak技术%业务应用%局限性
檯風%彊度估計%Dvorak技術%業務應用%跼限性
태풍%강도고계%Dvorak기술%업무응용%국한성
s:typhoon%intensity estimation%Dvorak technique%operational application%limitation
回顾了台风业务定强Dvorak技术的发展历程,分析了我国台风业务定强技术流程改进的必要性,简要介绍了世界气象组织推荐使用的1984年版本的基于BD增强红外云图的Dvorak台风业务定强分析技术流程以及中央气象台在2012—2013年开展的业务试验及应用情况,最后对Dvorak技术本身的局限性及业务分析中存在的问题进行了讨论。业务试验及应用的结果表明:Dvorak技术的应用不仅提高了中央气象台台风业务定强的精度和客观技术支撑能力,而且也增强了我国台风业务定强数据与国际上其他台风业务中心的可比性。与中国气象局台风最佳路径资料对比检验表明,中央气象台台风业务定强平均精度由2011年的1.9m/s优化至2013年的1.3m/s,提高近32%;针对2013年中央气象台和日本气象厅所确定的共511个台风现时强度指数(CI)对比样本的检验结果表明,两者确定的CI指数基本一致,总体相差在±1.0之间,这种差异与两者进行Dvorak技术分析时所使用的卫星资料(MTSAT或FY2系列)不一致有关,同时也与预报员的实际分析经验有关。
迴顧瞭檯風業務定彊Dvorak技術的髮展歷程,分析瞭我國檯風業務定彊技術流程改進的必要性,簡要介紹瞭世界氣象組織推薦使用的1984年版本的基于BD增彊紅外雲圖的Dvorak檯風業務定彊分析技術流程以及中央氣象檯在2012—2013年開展的業務試驗及應用情況,最後對Dvorak技術本身的跼限性及業務分析中存在的問題進行瞭討論。業務試驗及應用的結果錶明:Dvorak技術的應用不僅提高瞭中央氣象檯檯風業務定彊的精度和客觀技術支撐能力,而且也增彊瞭我國檯風業務定彊數據與國際上其他檯風業務中心的可比性。與中國氣象跼檯風最佳路徑資料對比檢驗錶明,中央氣象檯檯風業務定彊平均精度由2011年的1.9m/s優化至2013年的1.3m/s,提高近32%;針對2013年中央氣象檯和日本氣象廳所確定的共511箇檯風現時彊度指數(CI)對比樣本的檢驗結果錶明,兩者確定的CI指數基本一緻,總體相差在±1.0之間,這種差異與兩者進行Dvorak技術分析時所使用的衛星資料(MTSAT或FY2繫列)不一緻有關,同時也與預報員的實際分析經驗有關。
회고료태풍업무정강Dvorak기술적발전역정,분석료아국태풍업무정강기술류정개진적필요성,간요개소료세계기상조직추천사용적1984년판본적기우BD증강홍외운도적Dvorak태풍업무정강분석기술류정이급중앙기상태재2012—2013년개전적업무시험급응용정황,최후대Dvorak기술본신적국한성급업무분석중존재적문제진행료토론。업무시험급응용적결과표명:Dvorak기술적응용불부제고료중앙기상태태풍업무정강적정도화객관기술지탱능력,이차야증강료아국태풍업무정강수거여국제상기타태풍업무중심적가비성。여중국기상국태풍최가로경자료대비검험표명,중앙기상태태풍업무정강평균정도유2011년적1.9m/s우화지2013년적1.3m/s,제고근32%;침대2013년중앙기상태화일본기상청소학정적공511개태풍현시강도지수(CI)대비양본적검험결과표명,량자학정적CI지수기본일치,총체상차재±1.0지간,저충차이여량자진행Dvorak기술분석시소사용적위성자료(MTSAT혹FY2계렬)불일치유관,동시야여예보원적실제분석경험유관。
The history of operational typhoon intensity estimation based on Dvorak technique is reviewed and the necessity of improving the operational lfow of typhoon intensity estimation in China is analyzed in this paper. Then this paper gives a brief introduction to the basic method and lfow of Dvorak technique (1984 Edition) based on BD enhanced infrared satellite image and recommended by World Meteorological Organization (WMO) and the effect of its operational tests and application in Central Meteorological Ofifce (CMO) of China Meteorological Administration (CMA) in 2012 and 2013. Finally, the limitation of Dvorak technique and some problems in operational analysis are discussed. The results of the operational tests and application show that Dvorak technique not only improves the accuracy of operational typhoon intensity estimation and the objective technical support capabilities in CMO/CMA, but also enhances the comparability of the operational typhoon intensity estimation data given by CMO/CMA and other international operational typhoon centers. And the comparative veriifcation resutls, based on the CMA typhoon best track data, show that the average accuracy of operational typhoon intensity estimation of CMO increased to 1.3 m/s in 2013 from 1.9 m/s in 2011, increased by nearly 32%;the veriifcation results of the total 511 comparative samples in 2013 indicate that the current typhoon intensity index (CI) given by CMO and Japan Meteorological Agency (JMA) are almost consistent, and there is an overall difference of ±1.0 between their CI indices.The difference is related to the satellite data (MTSAT or FY2 series) using in Dvorak analysis and the operational analysis experience of the forecasters.
