SLAF方法的改进及其对广东地区一次飑线过程集合预报研究被引量：3

Ensemble forecasts based on modified SLAF for a squall line process in Guangdong province

下载PDF

导出

摘要本文在以滞后时间为权重的经典尺度化时间滞后法(SLAF)基础上,提出了一种改进方法,将滞后预报与控制预报之间差值场的均方根误差(RMSE)作为尺度化因子,构成集合预报成员,对比分析经典SLAF和改进SLAF方法对2007年4月23—24日广东地区一次飑线过程集合预报试验的模拟效果。结果表明:改进SLAF方法预报的各变量RMSE值有所降低,成员间离散度普遍增加;改进SLAF方法对强降水中心位置及降水强度的预报均优于经典SLAF方法。另外,多组加扰变量试验结果表明,对位温进行扰动的预报效果明显优于其他变量;不同的扰动变量对预报结果的影响不同,正确地选择扰动变量可明显提高预报效果。 A modified method of Scaled Lagged Average Forecasting（ SLAF） was introduced to produce ensemble members considering root mean square error（ RMSE） of difference between lagged forecasts and control runs as scaled factors. Both original and modified SLAF methods were utilized for the ensemble forecasts of a squall line process in Guangdong province on April 23 to 24,2007 and their simulation effects were compared. The results indicate that RMSEs of all variables determined using the modified SLAF decrease with increase of dispersion among members,while the forecasting center position and intensity of heavy rainfall for the modified SLAF are superior to those of the original one. Schemes with different variables for initial disturbances are tested. Forecasting is better for disturbance of potential temperature than for disturbance of other variables. The effect of different disturbance on forecasting is different,so selecting appropriate variables could enhance significantly the accuracy of forecasting.

作者王孝慈李双君闵锦忠

机构地区武汉中心气象台南京信息工程大学气象灾害省部共建教育部重点实验室

出处《气象与环境学报》 2015年第5期31-38,共8页 Journal of Meteorology and Environment

基金公益性行业(气象)科研专项(GYHY200906003) 国家自然科学基金(40975068)共同资助

关键词飑线 SLAF 中尺度系统集合预报 Squall SLAF（scaled lagged average forecasting） Meso-scale system Ensemble forecast

分类号 P456.7 [天文地球—大气科学及气象学]

引文网络
相关文献

参考文献28

1Hollingworth A,Simons A, Ghell A,et al. Improvements in the skills of numerical weather prediction with global model[ J]. WMO Bulletin,2003,52(2) :33 - 38. 被引量：1
2张宁娜,黄阁,吴曼丽,梁寒,盛永,刘桂英.2010年国内外3种数值预报在东北地区的预报检验[J].气象与环境学报,2012,28(2):28-33. 被引量：51
3王太微,陈德辉,吴曼丽.GRAPES-EPS系统的初值生成方法与对比试验研究[J].气象与环境学报,2014,30(2):23-30. 被引量：6
4孙凤娟..风暴尺度集合预报侧边界扰动技术研究[D].南京信息工程大学,2009:
5Leith C S. Theoretical skill of Monte Carlo forecasts E J ]. Monthly Weather Review,1974,102(6) :409 -418. 被引量：1
6Hoffman R N,Kalnay E. Lagged average forecasting,an alternative to Monte Carlo forecasting[ J. Tellus, 1983, 35A(2) :100 - 118. 被引量：1
7Toth Z, Kalnay E. Ensemble forecasting at NMC:The generation of perturbations [ J ]. American Meteorologi- cal Society, 1993,74 ( 12 ) :2317 - 2330. 被引量：1
8Laurence J W. Canadian meteorological center ensemble prediction system[ M]. Beijing :WMO Workshop on the Use of Ensemble Prediction, 2000. 被引量：1
9Toth Z,Kalnay E. Ensemble forecasting at NECP and the breeding method [ J ]. Monthly Weather Review, 1997,125 (12) : 3297 - 3319. 被引量：1
10Sindic -Rancic G, Toth Z, Kalnay E. Storm scale en- semble experiments with the ARPS model preliminary results[ C ]//12th Conference on Numerical Weather Prediction. Phoenix, Arizona: American Meteorological Society, 1998 279 - 280. 被引量：1