共查询到20条相似文献,搜索用时 31 毫秒
1.
基于微波成像仪资料反演陆面降水 总被引:2,自引:0,他引:2
为了探讨微波亮温与降水的关系,结合时空匹配较好的TRMM卫星测雨雷达(PR)、微波成像仪(TMI)资料,用逐步回归方法,建立统计反演降水的新算式,并对新算式反演结果进行验证.结果表明:对0.1~3 mm/h和3~6 mm/h的降水来说.新算式反演结果与PR雷达反演降水相关较好;对6~10 mm/h的降水来说,新算式反演结果与PR雷达反演降水相关较差;对于大于10 mm/h的降水,新算式反演结果与PR雷达反演降水有较好的相关性,但均方根误差比较大,说明用这种方法反演降水,对于强降水中心的确定有很好的参考价值,但反演结果较实际偏小.通过对2004年7月18日发生的一次特大降水反演结果表明,卫星反演雨带的空间分布、强降水中心位置与PR雷达反演降水以及地基雷达反演降水基本一致. 相似文献
2.
Application of Artificial Neural Networks to Rainfall
Forecasting in Queensland, Australia 总被引:1,自引:0,他引:1
In this study,the application of artificial intelligence to monthly and seasonal rainfall forecasting in Queensland,Australia,was assessed by inputting recognized climate indices,monthly historical rainfall data,and atmospheric temperatures into a prototype stand-alone,dynamic,recurrent,time-delay,artificial neural network.Outputs,as monthly rainfall forecasts 3 months in advance for the period 1993 to 2009,were compared with observed rainfall data using time-series plots,root mean squared error(RMSE),and Pearson correlation coefficients.A comparison of RMSE values with forecasts generated by the Australian Bureau of Meteorology’s Predictive Ocean Atmosphere Model for Australia(POAMA)-1.5 general circulation model(GCM) indicated that the prototype achieved a lower RMSE for 16 of the 17 sites compared.The application of artificial neural networks to rainfall forecasting was reviewed.The prototype design is considered preliminary,with potential for significant improvement such as inclusion of output from GCMs and experimentation with other input attributes. 相似文献
3.
Local flash flood storms with a rapid hydrological response are a real challenge for quantitative precipitation forecasting (QPF). It is relevant to assess space domains, to which the QPF approaches are applicable. In this paper an attempt is made to evaluate the forecasting capability of a high-resolution numerical weather prediction (NWP) model by means of area-related QPF verification. The results presented concern two local convective events, which occurred in the Czech Republic (CR) on 13 and 15 July 2002 and caused local flash floods. We used the LM COSMO model (Lokall Model of the COSMO consortium) adapted to the horizontal resolution of 2.8 km over a model domain covering the CR. The 18 h forecast of convective precipitation was verified by using radar rainfall totals adjusted to the measured rain gauge data. The grid point-related root mean square error (RMSE) value was calculated over a square around the grid point under the assumption that rainfall values were randomly distributed within the square. The forecast accuracy was characterized by the mean RMSE over the whole verification domain. We attempt to show a dependence of both the RMSE field and the mean RMSE on the square size. The importance of a suitable merger between the radar and rain gauge datasets is demonstrated by a comparison between the verification results obtained with and without the gauge adjustment. The application of verification procedure demonstrates uncertainties in the precipitation forecasts. The model was integrated with initial conditions shifted by 0.5° distances. The four verifications, corresponding to the shifts in the four directions, show differences in the resulting QPF, which depend on the size of verification area and on the direction of the shift. 相似文献
4.
5.
Level 3 (3A25) TRMM Precipitation Radar (PR) data are used for 13 years period (1998–2010) to prepare climatology of TRMM PR derived near surface rain (Total rain) and rain fractions for the 4-months duration of Indian Summer Monsoon season (June–September) as well as for individual months. It is found that the total rain is contributed mostly (99 %) by two rain fractions i.e. stratiform and convective rain fractions for the season as well as on the monthly basis. It is also found that total rain estimates by PR are about 65 % of the gauge measured rain over continental India as well as on sub-regional basis. Inter-annual variability of TRMM-PR rain estimates for India mainland and its sub-regions as well as over the neighboring oceanic regions, in terms of coefficient of variability (CV) is discussed. The heaviest rain region over north Bay of Bengal (BoB) is found to have the lowest CV. Another sub-region of low CV lies over the eastern equatorial Indian ocean (EEIO). The CVs of total rain as well as its two major constituents are found to be higher on monthly basis compared to seasonal basis. Existence of a well known dipole between the EEIO and the north BoB is well recognized in PR data also. Significant variation in PR rainfall is found over continental India between excess and deficit monsoon seasons as well as between excess and deficit rainfall months of July and August. Examination of rainfall fractions between the BoB and Central India on year to year basis shows that compensation in rainfall fractions exists on monthly scale on both the regions. Also on the seasonal and monthly scales, compensation is observed in extreme monsoon seasons between the two regions. However, much less compensation is observed between the north BoB and EEIO belts in extreme rain months. This leads to speculation that the deficit and excess seasons over India may result from slight shift of the rainfall from Central India to the neighboring oceanic regions of north BoB. Contribution of stratiform and convective rain fractions have been also examined and the two fractions are found to contribute almost equally to the total rain. Results are further discussed in terms of the possible impact of the two rain fractions on circulation based on possible difference is vertical profiles of latent heat of two types of rain. Substantial differences in the lower and upper tropospheric circulation regimes are noticed in both deficit and excess monsoon months/seasons, emphasizing the interaction between rainfall (latent heat) and circulation. 相似文献
6.
基于热带测雨卫星探测的东亚降水云结构特征的研究 总被引:4,自引:0,他引:4
利用热带测雨卫星的测雨雷达(TRMMPR)、微波成像仪(TMI)、可见光和红外辐射计(VIRS)、闪电成像仪(LIS)对降水云的综合探测结果,结合全球降水气候计划降水资料(GPCP)和中国气象台站雨量计观测资料,分析了东亚降水分布特点,并比较了TRMMPR与GPCP及地面雨量计观测结果的差异;揭示了中国中东部大陆、东海和南海对流降水和层云降水平均降水廓线的季节变化特征及物理意义,以及TMI高频和低频微波信号对地表降水率变化的响应特点;通过对中尺度强降水系统、锋面气旋降水系统和热对流降水系统的个例分析,探明了降水结构及其与闪电活动的关系、降水云顶部信息与地表雨强之间的关系。 相似文献
7.
In this study, tropical monthly mean precipitation estimated by the latest Global Precipitation Climatology Project (GPCP) version 2 dataset and Tropical Rainfall Measurement Mission Precipitation Radar (TRMM PR) are compared in temporal and spatial scales in order to comprehend tropical rainfall climatologically. Reasons for the rainfall differences derived from both datasets are discussed. Results show that GPCP and TRMM PR datasets present similar distribution patterns over the Tropics but with some differences in amplitude and location. Generally, the average difference over the ocean of about 0.5 mm d^-1 is larger than that of about 0.1 mm d^-1 over land. Results also show that GPCP tends to underestimate the monthly precipitation over the land region with sparse rain gauges in contrast to regions with a higher density of rain gauge stations. A Probability Distribution Function (PDF) analysis indicates that the GPCP rain rate at its maximum PDF is generally consistent with the TRMM PR rain rate as the latter is less than 8 mm d^-1. When the TRMM PR rain rate is greater than 8 mm d^-1, the GPCP rain rate at its maximum PDF is less by at least 1 mm d^-1 compared to TRMM PR estimates. Results also show an absolute bias of less than 1 mm d^-1 between the two datasets when the rain rate is less than 10 mm d^-1. A large relative bias of the two datasets occurs at weak and heavy rain rates. 相似文献
8.
为掌握并改进青藏高原地区TRMM卫星降水雷达 (precipitation radar,PR) 地面降雨率准确度,统计分析了2005—2007年TRMM PR 2A25资料和逐小时地面雨量计,结果表明:青藏高原地区TRMM PR地面降雨率在层云降水时平均偏低35%,在对流云降水时平均偏高42%。Z-R关系的适用性是PR产生偏差的原因之一,研究将TRMM PR层云降水模型中20℃层Z-R关系的初始系数A和b分别修正为0.0288和0.6752,对流云降水模型中20℃层的初始系数A和b分别修正为0.0406和0.5809,得到两类降水模型0℃层与20℃层之间不同高度Z-R关系的更新系数。检验结果表明,修正降水模型后能够提高青藏高原地面降雨率测量的准确度。 相似文献
9.
为综合评估卫星和天气雷达在2016年6月23日盐城龙卷风期间的强降水过程的降水估测精度,以国家级雨量站观测数据为基准,结合相关系数(CC)、相对误差(RB)、均方根误差(RMSE)以及分级评分指标,利用S波段的天气雷达定量降雨估测产品(RQPE)和全球降水观测计划多卫星融合产品(IMERG_FRCal,IMERG_FRUncal,IMERG_ERCal)进行比较。结果表明,雷达和卫星的累积降水量与雨量站的空间相关性很强(相关系数大于0.9),基本上能捕捉到整个降水过程的空间分布。降水主要分布在江苏省北部,但卫星高估了江苏省东北部强降水中心的降水量;对于小时时序区域平均降水,卫星高估了降水,而雷达低估了累积降水量。综合降水中心区域分析,IMERG的强降水区域降水量与雨量站的时间序列的偏差显著;RQPE在降水峰值达到之前及峰值之后与地面雨量站的变化趋势基本一致,但对降雨量峰值有明显的偏低。RQPE能较为准确地在时间上捕捉到降雨强度的变化趋势,但对于大雨及暴雨的估测能力不佳;RQPE的POD、SCI值都远远高于IMERG, FAR也较小。IMERG几乎未能监测到强降水的发生。总体上,RQPE对此次龙卷风强降水量的估测表现优于3种IMERG产品,特别是在捕捉强降水区域的空间分布方面,但对于强降水的估测能力仍需进一步改善。 相似文献
10.
在对比分析质量控制前后雷达估测降水量与自动雨量计降水量之间相关性的基础上,采用雷达-雨量计联合校准方法,对14种不同密度雨量计校准雷达估测降水的效果进行分析。结果表明:在使用雷达资料和雨量计资料前有必要对资料的质量进行分析与控制。联合雨量计校准雷达能明显提高雷达对降水的估测能力;采用不同密度雨量计校准雷达,随着校准雨量计密度的加大,雷达估测降水的精度不断提高并趋于稳定。校准雷达的效果及所需雨量计密度与降水类型有关,当校准效果相同时,积云强降水过程需要的雨量计密度最大,积混对流性降水过程次之,层云稳定性降水过程需要的雨量计密度最小。不同方法的校准效果不同,卡尔曼滤波方法适合于对稳定性降水的校准,或在雨量计密度低的地区对雷达进行校准;变分校准法和最优插值法的校准效果相当,适合对积混对流性降水的校准,或在雨量计密度高的地区对雷达进行校准。 相似文献
11.
为了更好地使用降水观测数据,对引起称重观测和人工观测的差异原因进行分析,选取北京市15个国家级地面观测站2012年11月—2014年1月称重式降水传感器与人工观测降水量业务资料,探讨称重观测与人工观测累积降水量的差异,并细化为对固态降水和液态降水两种降水类型进行相关性研究。结果表明:称重观测与人工观测日降水量相关系数为0.9990, 88.0%的对比次数中, 两者日降水量差值满足业务要求;在出现固态降水时,称重观测较人工观测降水量偏大,在出现液态降水时,称重观测较人工观测降水量偏小;两者在日降水量等级判断差异较小,小量降水时称重观测的能力较优;防风圈可显著提高称重观测固态降水的捕捉率,而称重观测内筒蒸发对夏季降水测量有一定影响。 相似文献
12.
Manish Kumar Goyal 《Theoretical and Applied Climatology》2014,118(1-2):25-34
Rainfall is a principal element of the hydrological cycle and its variability is important from both the scientific as well as practical point of view. Wavelet regression (WR) technique is proposed and developed to analyze and predict the rainfall forecast in this study. The WR model is improved combining two methods, discrete wavelet transform and linear regression model. This study uses rainfall data from 21 stations in Assam, India over 102 years from 1901 to 2002. The calibration and validation performance of the models is evaluated with appropriate statistical methods. The root mean square errors (RMSE), N-S index, and correlation coefficient (R) statistics were used for evaluating the accuracy of the WR models. The accuracy of the WR models was then compared with those of the artificial neural networks (ANN) models. The results of monthly rainfall series modeling indicate that the performances of wavelet regression models are found to be more accurate than the ANN models. 相似文献
13.
Iranian rainfall series analysis by means of nonparametric tests 总被引:1,自引:0,他引:1
P. Hosseinzadeh Talaee 《Theoretical and Applied Climatology》2014,116(3-4):597-607
The study of the trends and fluctuations in rainfall has received a great deal of attention, since changes in rainfall patterns may lead to floods or droughts. The objective of this study was to analyze the annual, seasonal, and monthly rainfall time series at seven rain gauge stations in the west of Iran for a 40-year period (from October 1969 to September 2009). The homogeneity of the rainfall data sets at the rain gauge stations was checked by using the cumulative deviations test. Three nonparametric tests, namely Kendall, Spearman, and Mann–Kendall, at the 95 % confidence level were used for the trend analysis and the Theil–Sen estimator was applied for determining the magnitudes of the trends. According to the homogeneity analysis, all of the rainfall series except the September series at Vasaj station were found to be homogeneous. The obtained results showed an insignificant trend in the annual and seasonal rainfall series at the majority of the considered stations. Moreover, only three significant trends were observed at the February rainfall of Aghajanbolaghi station, the November series of Vasaj station, and the March rainfall series of Khomigan station. The findings of this study on the temporal trends of rainfall can be implemented to improve the water resources strategies in the study region. 相似文献
14.
中国南方地基雨量计观测与星载测雨雷达探测降水的比较分析 总被引:7,自引:2,他引:5
利用热带测雨卫星(TRMM)上搭载的测雨雷达(PR)探测结果和中国40°N以南地区约430个台站雨量计观测结果,分析研究了1998-2005年中国南方地区这两种降水资料气候分布的异同.研究结果表明两种降水资料在2.5°空间水平分辨率上,所描述的中国南方降水率气候分布在多年年平均和季平均上具有较好的一致性,但在降水率极值和极值区范围大小等细节上两者还存在一定的差异,主要是地面雨量计结果相对PR结果偏高,其中中同南方50%以上地区两者相差在1 mm/d以内、30%的地区两者相差在1-2 mm/d,夏季差异可超过2 mm/d.对两种降水资料差异的原因分析表明,地面雨量计空间分布密度是影响两者差异的决定性因素,当格子内雨量计超过6个时,两者的相关系数大于0.7;夏季两种降水资料的相关性都比其他季节差,不论格子内的雨量计数量多与少;对流降水多发地区,两种降水资料之间的差异大于层云降水多发地.利用PR探测结果对夏季青藏高原多年月平均降水率分布及高原东、西部的降水特点的分析表明,6月高原东部出现2 mm/d左右的降水区,而在7和8月1 mm/d的降水区域基本覆盖了除高原西部以外的整个高原,其中高原中部地区出现降水率近3mm/d的大值区.月降水距平的时间演变表明,高原降水偏少月份要多于偏多月份. 相似文献
15.
Yu. B. Pavlyukov 《Russian Meteorology and Hydrology》2007,32(11):711-718
Results of measurement of rainfall intensity and accumulated amounts with an automated tipping-bucket rain gauge based on an updated DZhO M96-8 precipitation gauge are presented. The measurement were carried out in the town of Dolgoprudny (Moscow region) in 2002–2005. The design, data processing algorithm, and calibration of the tipping-bucket rain gauge are described, and estimates of the measurement error are calculated. Examples of tipping-bucket rain gauge measurements in shower and widespread precipitation are given, along with results of analysis of the statistical structure of precipitation by intensity gradations. The measurement results are compared with those of precipitation gauges, the P-2 recording rain gauge, and the AKSOPRI radar complex. 相似文献
16.
基于漂移克里金融合雷达、雨量计定量估测降水研究 总被引:1,自引:0,他引:1
文中介绍了一种新的融合雷达和雨量计数据开展定量估测降水研究的空间信息统计学方法—Kriging with external drift(KED)方法。该方法能很好地融合高精度、低时空分辨率的雨量计数据和低精度、高时空分辨率的雷达数据进行插值。通过变异函数描述降水场的空间结构信息,能够充分利用数据间的空间相关性,来改进估测精度和提高处理速度。利用其优良的数学特性,以期在定量估测降水业务研究上进行新的探索和尝试。选用湖南省有代表意义的3次降水过程资料,通过雷达直接估测降水(RAD)、变分校准(VAR)以及KED 3种方法,分别与雨量计测量值进行对比分析,选用代表站进行交叉验证结果均表明:RAD的均方差、绝对误差、相对误差最大,VAR次之,而KED最小。KED估测的结果与雨量计测量降水最为接近,估测效果最好;3种方法与雨量计实测值计算一定范围的误差频率,KED估测值具有最小的均方差和最小的标准差,且误差分布相对集中在0值附近,斜度和峰度最佳,试验证明该方法不仅能提高降水估测精度,且优于其他方法,VAR均方差次之,RAD均方差效果相对较差。联合雷达、雨量计估测降水的实质是把雷达估测值与雨量计测量的结果相融合,以雨量计来校准雷达估测值,保留了雷达探测到降水的中、小尺度精细特征。校准后的雨量场数值接近雨量计测值,而且能够准确反映雷达测得的降水分布形式。 相似文献
17.
利用TIGGE资料中欧洲中期天气预报中心(ECMWF,the European Centre for Medium-Range Weather Forecasts)、日本气象厅(JMA,the Japan Meteorological Agency)、美国国家环境预报中心(NCEP,the National Centers for Environmental Prediction)以及英国气象局(UKMO,the UK Met Office)4个中心1~7 d预报的日降水量集合预报资料,并以中国降水融合产品作为"观测值",对我国地面降水量预报进行统计降尺度处理。采用空间滑动窗口增加中雨和大雨雨量样本,建立分级雨量的回归方程,并与未分级雨量的统计降尺度预报进行对比。结果表明,对于不同模式、不同预报时效以及不同降水量级,统计降尺度的预报技巧改进程度不尽相同。统计降尺度的预报技巧依赖于模式本身的预报效果。相比雨量未分级回归,雨量分级回归的统计降尺度预报与观测值的距平相关系数更高,均方根误差更小,不同量级降水的ETS评分明显提高。对雨量分级回归统计降尺度预报结果进行二次订正,可大大减少小雨的空报。 相似文献
18.
Milovanović Boško Schuster Phillip Radovanović Milan Vakanjac Vesna Ristić Schneider Christoph 《Theoretical and Applied Climatology》2017,130(1-2):687-700
Monthly, seasonal and annual sums of precipitation in Serbia were analysed in this paper for the period 1961–2010. Latitude, longitude and altitude of 421 precipitation stations and terrain features in their close environment (slope and aspect of terrain within a radius of 10 km around the station) were used to develop a regression model on which spatial distribution of precipitation was calculated. The spatial distribution of annual, June (maximum values for almost all of the stations) and February (minimum values for almost all of the stations) precipitation is presented. Annual precipitation amounts ranged from 500 to 600 mm to over 1100 mm. June precipitation ranged from 60 to 140 mm and February precipitation from 30 to 100 mm. The validation results expressed as root mean square error (RMSE) for monthly sums ranged from 3.9 mm in October (7.5% of the average precipitation for this month) to 6.2 mm in April (10.4%). For seasonal sums, RMSE ranged from 10.4 mm during autumn (6.1% of the average precipitation for this season) to 20.5 mm during winter (13.4%). On the annual scale, RMSE was 68 mm (9.5% of the average amount of precipitation). We further analysed precipitation trends using Sen’s estimation, while the Mann-Kendall test was used for testing the statistical significance of the trends. For most parts of Serbia, the mean annual precipitation trends fell between −5 and +5 and +5 and +15 mm/decade. June precipitation trends were mainly between −8 and +8 mm/decade. February precipitation trends generally ranged from −3 to +3 mm/decade.
相似文献19.
本文利用四川省156个国家地面气象观测自动站2018年逐小时降水资料,从降水产品与观测值的对比、降水产品误差空间特征、降水产品误差月变化、不同降水量级的误差特征等方面,对国家气象信息中心研制的中国区域1h、0.05° × 0.05°分辨率的地面-卫星-雷达三源融合实时降水产品和地面-卫星二源融合快速降水产品在四川区域的适用性进行对比评估。研究结果表明,两套融合降水产品能较好的反映四川区域年内小时降水的时空变化特征,与站点观测降水相比,两套融合降水产品均存在一定程度的低估,且随着降水量级的增大,均方根误差值也相应增大。两套融合降水产品相比,融合了雷达资料的三源融合降水产品各项指标均优于二源融合降水产品,数据质量更高。 相似文献
20.
为了评估GPM/IMERG产品在鲁南地区的精度,利用2016年1—12月鲁南地区35个国家气象站的降水观测数据,采用定量和分类评分指标的方法,从时间、空间和降雨强度等方面对GPM/IMERG产品在鲁南地区的适用性进行评估。结果表明:IMERG数据在鲁南地区具有较高的精度,IMERG与站点观测数据相关系数为0.8,均方根误差为5.47mm/d,相对偏差为2.27%;从时间上来看,IMERG与站点观测区域平均日降水和月降水总体变化趋势是一致的,夏季的估算精度高于其他季节;从空间上来看,年降水量偏多的台站,IMERG数据会低估,年降水量偏少的台站,IMERG数据会高估,IMERG对中纬度山地和丘陵的估测精度优于平原;IMERG产品的估计精度与降雨强度有关,当降水量级为微量降水(小于1mm/d)时,卫星估测能力较弱,当降水强度为小雨及以上量级时,卫星估测降水产品与实际观测概率密度差异较小;IMERG估算稳定性降水的能力较强,在降水较多月份,IMERG的探测准确率较高、空报率较低、临界成功指数较好。 相似文献