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热带气旋路径数值模式业务试验性能分析 总被引:9,自引:2,他引:9
在中国气象局数值预报创新基地开发的GRAPES基础上,建立了热带气旋路径预报系统(GRAPES-TCM)。并对2002、2003年热带气旋进行了一系列时间为48 h的路径后报试验,对2004年的热带气旋路径进行准业务预报。针对热带气旋路径预报的分析表明,GRAPES-TCM对热带气旋路径具有良好的预报能力。比较了2004年GRAPES-TCM准业务预报同北京数值预报和日本数值预报的结果,GRAPES-TCM的预报结果比北京的好,与日本数值预报相比仍有较大的差距。GRAPES-TCM计算的总的热带气旋24、48 h平均距离误差大约为150、250 km。GRAPES-TCM计算的热带气旋路径的平均距离误差随着其初始强度的增强而减小,台风级的热带气旋路径的24 h平均距离误差仅为111 km,48 h平均距离误差也在210 km左右,与此同时,预报的强热带风暴的24和48 h平均距离误差则为166.6和242.6 km。GRAPES-TCM后报的"突然转向"和"突然变速"热带气旋的平均距离误差24 h达到280 km,48 h则在300 km左右,超过其总的平均距离误差。对于"回旋"路径的热带气旋也有一定的预报能力。对不同分辨率的对比试验结果表明,提高GRAPES-TCM的分辨率可为稍长时间的热带气旋路径预报提供更为可靠的结果,2004年的热带气旋路径预报的48 h平均距离误差不到200 km。 相似文献
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2002年西北太平洋和南海热带气旋路径主客观预报评价 总被引:1,自引:2,他引:1
利用目前中央气象台热带气旋路径实时业务预报中使用的各种主客观预报产品资料,对2002年西北太平洋和南海热带气旋路径实时业务预报中的主客观预报进行对比分析检验。结果显示:虽然在整体上主观预报要优于客观模式的结果,但客观模式的预报能力已接近主观预报,有时甚至还好于主观预报,特别是48小时以上时效的客观模式较主观预报具有一定的优势;而在客观模式中,全球模式优于台风模式;热带气旋路径数值模式产品的使用对提高热带气旋路径业务预报水平具有十分重要的作用。 相似文献
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1引言众所周知,热带气旋路径预报的精度直接关系灾害性天气的预报服务效果。近年来,随着数值预报和各种热带气旋路径预报方法的不断改进,热带气旋路径的预报水平也在不断的提高。然而,随着社会经济的发展,对于热带气旋路径和灾害性天气预报的精度和时效的要求越来越高。目前国内外比较先进的数值预报和热带气旋路径预报,随着预报时效的延长和路径的变化,预报误差亦明显增大。因此,分析热带气旋路径预报的误差及各种数值预报对于热带气旋路径的预报能力,便于业务预报的合理释用,减小预报误差,获取最佳预报服务效果,是业务预报服… 相似文献
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西北太平洋(含南海)热带气旋路径集成预报分析 总被引:2,自引:1,他引:1
基于2004—2009 年中国中央气象台、日本气象厅、美国联合台风警报中心、欧洲中心对西北太平洋和南海编号热带气旋主客观预报资料,利用算术平均、多元回归以及历史平均误差等三种集成方法,建立了热带气旋路径集成预报业务化系统。通过2007—2009 年的业务运行结果分析发现,欧洲中心客观预报参与的24、48 和72 h 集成比主观预报三个成员集成预报水平分别提高约2%、3%~5%和3%~5%,减小误差2.5 km左右、6~9 km 和10~12 km。技巧分析发现,24~72 h 集成预报有正技巧,多元回归集成技巧相对稍低,而算术平均和以各成员平均误差的平方倒数为权重系数的集成技巧对于各集成成员来说技巧差异不大。96 h 集成预报对欧洲中心的客观预报没有正技巧。 相似文献
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基于副热带奇异向量的初值扰动方法已应用于GRAPES (Global and Regional Assimilation PrEdiction System)全球集合预报系统,但存在热带气旋预报路径离散度不足的问题。通过分析发现,热带气旋附近区域初值扰动结构不合理导致预报集合不能较好地估计热带气旋预报的不确定性,是路径集合离散度不足的可能原因之一。通过建立热带气旋奇异向量求解方案,将热带气旋奇异向量和副热带奇异向量共同线性组合生成初值扰动,以弥补热带气旋区域初值扰动结构不合理这一缺陷,进而改进热带气旋集合预报效果。利用GRAPES全球奇异向量计算方案,以台风中心10个经纬度区域为目标区构建热带气旋奇异向量求解方案,针对台风“榕树”个例进行集合预报试验,并开展批量试验,利用中国中央气象台最优台风路径和中国国家气象信息中心的降水观测资料进行检验,对比分析热带气旋奇异向量结构特征和初值扰动特征,评估热带气旋奇异向量对热带气旋路径集合预报和中国区域24 h累计降水概率预报技巧的影响。结果表明,热带气旋奇异向量具有局地化特征,使用热带气旋奇异向量之后,热带气旋路径离散度增加,路径集合平均预报误差和离散度的关系得到改善,路径集合平均预报误差有所减小,集合成员更好地描述了热带气旋路径的预报不确定性;中国台风降水的小雨、中雨、大雨、暴雨各量级24 h累计降水概率预报技巧均有一定提高。总之,当在初值扰动的生成中考虑热带气旋奇异向量后,可改进热带气旋初值扰动结果,并有助于改善热带气旋路径集合预报效果。 相似文献
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An objective prediction approach to the 6 h-144 h track and intensity of tropical cyclones over the northwestern Pacific is proposed. On the basis of both analog deviation technique and completed historical sample curve library, the track or intensity prediction for each forecast period are determined respectively through the optimum weighted superposition of displacement or intensity change of the cases, with different number and weighted coefficient corresponding to minimal analog deviation, from different tropical cyclone or different stage of the same cyclone. so that the prediction results for both forecast period and entire process are optimal. The verification suggests that the approach exhibits better forecast performance than other previous forecast methods by having remarkable decreasing forecast errors in short-and medium-range forecast of both track and intensity,and that the approach can also be used to predict effectively the decay process of tropical cyclone and is able to predict anomalous track and tropical depression. 相似文献
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钟元 《热带气象学报(英文版)》2002,8(2):207-217
An objective analogue prediction model for tropical cyclone (TC) track is put forward that
comprehensively assesses the environmental field. With the parameters of the tropical cyclone and environmental
field at initial and future time, objective analogue criteria are set up in the model. Analogous samples are
recognized by comprehensive assessment to historical TC cases for similarity with multivariate criteria,using
non-linear analogue indexes especially defined for the purpose. When the historical tracks are
coordinateconverted and weighted with reference to analogue indexes,forecast tracks are determined. As shown
in model verification and forecast experiments, the model has forecasting skill. 相似文献
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给出了一个嵌套于欧洲中期天气预报中心全球谱模式中的套网格模式,用于预报热带气旋路径趋势,提出了一种以欧洲中期天气预报中心提供的时距为24小时的预报场为基础的“接力预报”方法;设计了五种不同的“接力预报”方案;并对8507号和8509号两个热带气旋就各种不同预报方案进行了数值预报试验。结果表明,本模式对热带气旋路径趋势具有较强的预报能力,对疑难路径也具有一定的预报能力,为开展热带气旋的路径趋势预报提供了一个新的途径。文中还对影响热带气旋路径趋势的一些主要因子结合各预报结果进行了分析,为模式尽早投入业务提供了一定的依据。 相似文献
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Summary From 1994 to 2003, fifty-five tropical cyclones entered the Canadian Hurricane Centre (CHC) Response Zone, or about 42% of
all named Atlantic tropical cyclones in this ten-year period, and 2003 was the fourth consecutive year for a tropical cyclone
to make landfall in Canada. The CHC forecasts all tropical cyclones that enter the CHC Response Zone and assumes the lead
in forecasting once the cyclone enters its area of forecast responsibility. This study acknowledges the challenges of forecasting
such tropical cyclones at extratropical latitudes. If a tropical cyclone has been declared extratropical, global models may
no longer use vortex bogussing to carry the cyclone, and even if it is modeled, large model errors often result. The purpose
of this study is to develop a new version of the Florida State University (FSU) hurricane superensemble with greater skill
in tracking tropical cyclones, especially at extratropical latitudes. This has been achieved from the development of the synthetic
superensemble, which is similar to the operational version of the multi-model superensemble that is used at FSU. The synthetic
superensemble differs in that is has a larger set of member models consisting of regular member models, synthetic versions
of these models, and the operational superensemble and its synthetic version. This synthetic superensemble is being used here
to forecast hurricane tracks from the 2001, 2002, and 2003 hurricane seasons. The track forecasts from this method have generally
less error than those of the member models, the operational superensemble, and the ensemble mean. This study shows that the
synthetic superensemble performs consistently well and would be an asset to operational hurricane track forecasting. 相似文献
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以神经网络方法为基础,建立西北太平洋热带气旋强度预测模型,模型首先进行历史相似热带气旋选择。从选择的样本出发,计算得到一组气候持续因子、天气学经验因子和动力学因子, 对这些因子采用逐步回归方法进行筛选,将筛选得到的因子同对应时效的热带气旋强度输入神经网络训练模块,从而得到优化的预测模型。从2004-2005年西北太平洋26个热带气旋过程对12,24,36,48,72h等不同预报时效分别进行的634,582,530,478,426次预测试验结果的统计来看,相对于线性回归模型预测水平,该模型显著降低了各时段的预测误差。从几个热带气旋个例的预测结果来看, 该模型对超强台风, 以及具有强度迅速加强、再次加强等特征的热带气旋过程均有很好的描述能力。 相似文献
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Tropical cyclone track and intensity prediction: The generation and assimilation of high-density, satellite-derived data 总被引:1,自引:0,他引:1
J. F. Le Marshall L. M. Leslie R. F. Abbey Jr. L. Qi 《Meteorology and Atmospheric Physics》2002,80(1-4):43-57
Summary The impact of recent scientific and technological advances in tropical cyclone track, intensity and structure modeling is
discussed. Since the early 1990s, developments have occurred in remote sensing, data assimilation procedures, numerical models
and high performance computing. In particular, there is now quasi-continuous high spatial and temporal resolution data coverage
over the previously data-sparse oceans where tropical cyclones spend most of their life cycles. There has been a rapid development
of data assimilation methodologies capable of using these data to initialize high-resolution prediction models. Model developments
have reached a stage of maturity where the representation of many of the physical processes necessary for improved tropical
cyclone track and intensity prediction are now included. Finally, available computer power has reached the teraflop range.
Most operational centers have high performance computers capable of tropical cyclone modeling at resolutions necessary for
skillful track and intensity simulations.
This article focuses on combining all of the above developments in a tropical cyclone data analysis and prediction system.
The system has produced statistically significant reductions in the mean forecast error statistics for tropical cyclone track
predictions and resulted in far more realistic simulations of tropical cyclone intensity and structure. A large number of
tropical cyclones have been modeled, with emphasis on those classified as being “difficult” storms to predict accurately.
These difficult storms are most responsible for rapidly growing forecast errors. Our results are illustrated by case studies
of such tropical cyclones.
Received October 9, 2001 Revised December 28, 2001 相似文献