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1.
云检测是卫星资料同化的重要前处理步骤,无论是晴空资料同化还是有云资料同化,都需要准确地区分有云和晴空资料。由于陆地地表发射率的多变性和微波能穿透部分云类的特点,微波湿度计资料在陆地上空的云检测研究一直是难点。利用快速辐射传输模式(CRTM)分析了不同云类条件下FY-3C微波湿度计(MWHS-Ⅱ)各通道亮温的通道间变率特征,根据MWHS-Ⅱ亮温通道间变率随云高以及云中液态水含量的增大而减小的特点,提出了一个基于亮温通道变率的MWHS-Ⅱ陆地资料云检测方法。与已有的云产品比较结果表明:新的云检测算法能有效地剔除大部分受云影响的资料,剔除后的晴空资料观测和模拟偏差更好地符合高斯分布。新方法对过冷水云、冰云、重叠云的检测能力较强,正确检测率可以达到80%,对卷云以及高度较低的水云的检测能力相对较弱。新方法能有效利用MWHS-Ⅱ观测资料自身完成云检测,在MWHS-Ⅱ资料同化中有很好的应用前景。 相似文献
2.
利用NOAA-16/AMSU-B微波亮温资料和GOES-9光学遥感资料对2004年6月16日一次锋面气旋云系中的强对流云团进行识别, 尝试了NOAA-16/AM SU-B微波两窗区通道亮温、3个微波水汽通道间亮温差, GOES-9红外亮温阈值、水汽和红外通道亮温差、红外和水汽通道亮温多光谱逐个修改聚类等方法, 通过比较各种方法的识别结果, 分析各种识别技术的特点, 同时采用地面常规观测资料进行叠加, 对识别方法进行了验证。结果表明:微波对强对流云团均能较好识别, 但89 GHz通道亮温受地表影响较大, 不能很好剔除过冷水体, 150 GHz通道亮温与微波水汽通道间亮温差的识别结果较一致, 3个微波水汽通道间亮温差对阈值的依赖性相对较小; GOES-9红外亮温阈值因其随时空变化对识别结果会造成较大差别, 而水汽和红外通道亮温差对强对流云团能进行较好定位, 但识别范围较小, 多光谱逐个修改聚类方法对积雨云的识别效果较好, 且和NOAA-16/AMSU-B识别结果有较好的对应关系; 地面常规观测资料的叠加结果也说明, 多波段遥感资料对强对流云团的识别结果与当时的天气现象及积雨云状均有较好的对应关系。 相似文献
3.
The relationship between differences in microwave humidity sounder(MHS)–channel biases which represent measured brightness temperatures and model-simulated brightness temperatures, and cloud ice water path(IWP) as well as the influence of the cloud liquid water path(LWP) on the relationship is examined. Seven years(2011–17) of NOAA-18 MHS-derived measured brightness temperatures and IWP/LWP data generated by the NOAA Comprehensive Large Array-data Stewardship System Microwave Surface and Precipitation Products System are used. The Community Radiative Transfer Model, version2.2.4, is used to simulate model-simulated brightness temperatures using European Center for Medium-Range Weather Forecasts reanalysis data as background fields. Scan-angle deviations of the MHS window channel biases range from-1.7 K to1.0 K. The relationships between channels 2, 4, and 5 biases and scan angle are symmetrical about the nadir. The latitudedependent deviations of MHS window channel biases are positive and range from 0–7 K. For MHS non-window channels,the latitudinal deviations between measured brightness temperatures and model-simulated brightness temperatures are larger when the detection height is higher. No systematic warm or cold deviations are found in the global spatial distribution of difference between measured brightness temperatures and model-simulated brightness temperatures over oceans after removing scan-angle and latitudinal deviations. The corrected biases of five different MHS channels decrease differently with respect to the increase in IWP. This decrease is stronger when LWP values are higher. 相似文献
4.
有云环境下MODIS亮温资料的变分同化Ⅰ——方案设计与理想试验 总被引:3,自引:2,他引:1
云对红外辐射传输过程有十分重要的影响,在资料同化过程中考虑云的作用,不仅可以改进大气参数的同化效果,还可以利用红外资料调整部分云参数,减小云参数的初始误差。在GRAPES-3DVAR(Global and Regional Assimilation and Prediction Enhanced System,全球/区域同化预报系统)基础上,增加云水含量、云冰水含量和云量作为同化系统控制变量,针对晴空、部分有云和完全有云等环境对MODIS(Moderate Resolution Imaging Spectroradiometer,即中分辨成像光谱仪)的16个气象通道亮温进行了同化理想试验,结果表明当背景场模拟的亮温低于观测亮温时,分析场通过增温、减湿、减少云水含量、云冰水含量、云量可以达到升高模拟亮温的目的;反之可以降低模拟亮温;晴空环境下对温度、比湿的调整符合MODIS仪器的设计特点;有云环境下对云层以下的影响减弱。理想试验证实了在红外辐射资料同化过程中将云参数和大气参数同时作为同化系统控制变量,可以利用红外资料调整云参数和常规气象要素场,提高资料的利用率。 相似文献
5.
The Multivariate and Minimum Residual(MMR) cloud detection and retrieval algorithm, previously developed and tested on simulated observations and Advanced Infrared Sounder radiance, was explored and validated using various radiances from multiple sensors. For validation, the cloud retrievals were compared to independent cloud products from Cloud Sat, MODIS(Moderate Resolution Imaging Spectroradiometer), and GOES(Geostationary Operational Environmental Satellites). We found good spatial agreement within a single instrument, although the cloud fraction on each pixel was estimated independently. The retrieved cloud properties showed good agreement using radiances from multiple satellites, especially for the vertically integrated cloud mask. The accuracy of the MMR scheme in detecting mid-level clouds was found to be higher than for higher and lower clouds. The accuracy in retrieving cloud top pressures and cloud profiles increased with more channels from observations. For observations with fewer channels, the MMR solution was an "overly smoothed" estimation of the true vertical profile, starting from a uniform clear guess. Additionally, the retrieval algorithm showed some meaningful skill in simulating the cloudy radiance as a linear observation operator, discriminating between numerical weather prediction(NWP) error and cloud effects. The retrieval scheme was also found to be robust when different radiative transfer models were used. The potential application of the MMR algorithm in NWP with multiple radiances is also discussed. 相似文献
6.
应用FY-3A微波湿度计2010年1月份的Level-1c观测亮度温度O,NCEP GFS 6 h的预报场作为背景场,用RTTOV 9.3版本辐射传输模式模拟的亮度温度B以及美国NOAA-18 MHS业务微波地表和降水产品,研究了双权重质量控制算法对FY-3A MWHS 通道3至5云和降水视场的识别能力。研究表明双权重质量控制算法判断的负观测增量O-B的离群点中,大多数都受云和降水影响。通道3约占60%,通道4约80%,通道5超过80%。当降水率大于0.2 mm·h-1时,通道3负离群点可识别超过60%降水云,随着降水率增大识别率超过80%。而通道4对大于0.2 mm·h-1的降水的识别率超过90%。通道5负离群点几乎可以剔除100%的降水影响资料。在目前还没有MWHS自身云检测产品的条件下,双权重质量控制算法可剔除大部分云和降水影响视野。 相似文献
7.
Microwave Sounding Unit (MSU) and Advanced Microwave Sounding Unit-A (AMSU-A) observations from a series of National Oceanic and Atmospheric Administration satellites have been extensively utilized for estimating the atmospheric temperature trend. For a given atmospheric temperature condition, the emission and scattering of clouds and precipitation modulate MSU and AMSU-A brightness temperatures. In this study, the effects of the radiation from clouds and precipitation on AMSU-A derived atmospheric temperature trend are assessed using the information from AMSU-A window channels. It is shown that the global mean temperature in the low and middle troposphere has a larger warming rate (about 20–30 % higher) when the cloud-affected radiances are removed from AMSU-A data. It is also shown that the inclusion of cloud-affected radiances in the trend analysis can significantly offset the stratospheric cooling represented by AMSU-A channel 9 over the middle and high latitudes of Northern Hemisphere. 相似文献
8.
微波成像仪通道对降水云参数响应的数值模拟研究 总被引:3,自引:2,他引:1
由于降水云类型和结构等的差异,将导致微波信号出现不同的响应,因此基于星载微波仪器观测结果对降水云参数进行反演仍是目前国际上的难题之一。为了解层云和对流云等两类降水云的TMI微波信号特点,本文以相应的结构模型为基础,利用微波辐射传输模式MWRT分别模拟了不同下垫面和降水云参数条件下的TMI各通道微波亮温,并分析了各种组合通道信号,包括反映发射信息的极化差D(洋面)及反映散射信息的高频极化校正亮温PCT85(洋面)和高低频率垂直极化差VFD(陆面)的变化情况,以此从理论上探讨可能的降水反演方法。研究结果表明:在洋面,D和PCT85均随降水率的升高而减小,其中D_(10)和PCT85都能很好地反映降水率的变化,但分别受地表状况和云体性质(冻结层高度和霰粒大小)的影响较大;D_(19)和D_(37)虽然对下垫面状况和冻结层高度都不甚敏感,但随降水率的增加,存在极化丧失现象,因此不适合反演降水。在陆面,较高频取85 GHz的VFD与降水率有很好的对应关系,随降水率的增长而增大,其中VFD37-85受地表状况影响最小,但受云体性质影响较大;37 GHz对液态水变化敏感,其发射效应易混淆散射信号,故较高频取37 GHz的VFD10-37和VFD19-37不适合研究降水与微波信号之间的关系;层云与对流云存在有无霰粒的差异,会对微波散射性质造成影响,导致PCT85和VED对层云降水率的响应要高于对流云。 相似文献
9.
GRAPES3Dvar大气红外高光谱云检测采用McNally andWatts(2003)的晴空通道方案,该方案基于模拟观测与实际观测偏差(B-O)进行检测,其中阈值的选取与预报模式有关。传统对云检测阈值的选取多采用主观判定方法,如图像对比分析等。文章在主观判定的基础上提出两种新的较为客观的阈值判定方法:(1)视场偏差分析:通过分析模拟观测与实际观测之间偏差的垂直分布,观察不同阈值下的云顶高度来评估阈值选取的合理性;(2)云检测指标评分:通过建立一系列云检测指标,对其进行评分来选取最优的阂值。并结合上述三种方法,将其应用于IASI辐射率资料的云检测阈值判定,其中梯度阈值对最后的云检测效果影响不大,保持与欧洲中心相同的值;偏差阈值则采用综合的分析方法进行判定,从而克服了单纯利用云图对比而带来的视觉误差。分析结果表明,偏差阈值取2.0 K、窗区通道梯度阈值取0.4 K,非窗区通道梯度阈值取0.02 K时云检测的效果最好。最后进行的为期1个月的试验显示:通过对比不同云检测偏差阈值的同化效果,选取的云检测闾值是有效的。 相似文献
10.
为进一步评估地基微波辐射计红外传感器的观云性能,收集了2017、2018两年5—7月布设在广州野外雷电实验基地的一台MWP967KV型地基微波辐射计红外传感器与一台K/LLX502B型激光测云仪观测的云底高度数据,并利用人工观测的天空状况、云状数据进行分类,在不同云类、天空状况下对地基微波辐射计红外传感器云识别和观测云底高度的性能进行分析。结果表明:①地基微波辐射计红外传感器具有良好的云识别能力,准确率达80.4%,由于观测视角的原因,未能识别出有云存在主要发生在"多云"情况下。②地基微波辐射计红外传感器与激光测云仪所测云底高度相关系数为0.63,有着较好的一致性。③因为观测原理不同,地基微波辐射计红外传感器所测云底高度总是高于激光测云仪,且两部仪器在低云阴天时所测的云底高度一致性要优于中、高云多云。综上所述,地基微波辐射计红外传感器用来识别云、观测云底高度具有一定的可行性,尤其是在低云、"阴天"条件下,有着较好的观云性能。 相似文献
11.
Study of TOVS applications in monitoring atmospheric temperature,water vapor,and cloudiness in East Asia 总被引:2,自引:0,他引:2
B. Zhao 《Meteorology and Atmospheric Physics》1994,54(1-4):261-270
Summary A new Statistical-Physical Retrieval Method (STPRM) has been developed for applications with TIROS Operational Vertical Sounder (TOVS) measurements. The method uses physical modeling combined with statistical regression to develop straightforward retrieval expressions for temperature, moisture content, and tropopause height based on brightness temperature measurements from both the HIRS and MSU instruments used in the TOVS system. The selection of HIRS and MSU channels used in the various retrievals is based on channel sensitivity coefficients which relate to the amplitude of the change of a given channel's brightness temperature to a given change in a retrieval parameter. The temperature retrieval procedure is designed for all-weather situations, and emphasizes the use of MSU microwave channels including linear combinations of these channels to improve vertical resolution. Cloud parameters are retrieved using radiances from HIRS channels to generate clear column radiances for the moisture and tropopause height retrievals, which depend almost exclusively on the HIRS channels. The STPRM scheme is then used to obtain and evaluate distributions of temperature, mixing ratio, and tropopause height. Distributions of ozone content are also retrieved from an independent iterative retrieval procedure using the cloud corrected radiances from the STPRM scheme as input. The retrievals are compared to in situ measurements obtained from radiosonde observations and ground-based Dobson spectrometer measurements situated throughout East Asia with generally good results. The temperature retrievals are also used in a synoptic analysis of a winter storm situation that developed over northern China in January 1989, giving a geopotential height distribution which is confirmed by aerological observations.With 16 Figures 相似文献
12.
卫星资料提供了大量关于云和雨的观测信息,在暴雨预报中可发挥巨大的作用,然而在数值模式资料同化中的应用水平仍然不高,特别是红外辐射资料的应用。由于有云环境下辐射传输过程的模拟难度很大,因此通常只同化晴空环境下的红外辐射资料。基于GRAPES-3DVAR(Global and Regional Assimilation and Prediction Enhanced System,全球/区域同化预报系统),根据RTTOV辐射传输模式(fast radiative transfer model for TOVS,快速辐射传输模式)的特点,增加云水含量、云冰水含量和云量作为同化系统控制变量,在改进辐射传输模式对红外资料模拟的同时,利用红外资料调整初始云参数和大气参数。针对2007年5月26日南海季风爆发后广东地区的一次暴雨过程,选取MODIS(Moderate Resolution Imaging Spectroradiometer,中分辨成像光谱仪)传感器水汽(第27)和云顶观测(第36)通道进行了同化试验,利用WRF(Weather Research and Forecasting Model,天气研究和预报模式)进行了数值模拟,结果表明同化MODIS资料,可以改进初始场水汽和温度分布,间接调整高空风场,调整趋势符合卫星观测,对短时降水预报有正面影响。 相似文献
13.
The effect of cirrus clouds on microwave limb radiances 总被引:1,自引:0,他引:1
This study presents and analyses the first simulations of microwave limb radiances with clouds. They are computed using the 1D unpolarized version of the Atmospheric Radiative Transfer System (ARTS). The study is meant to set a theoretical foundation for using microwave limb measurements for cloud monitoring. Information about clouds is required for the validation of climate models.Limb spectra are generated for the frequency bands of the Millimeter wave Acquisitions for Stratosphere/Troposphere Exchange Research (MASTER) instrument. For these simulations, the radiative transfer equation is solved using the Discrete Ordinate ITerative (DOIT) method, which is briefly described. Single scattering properties for the cloud particles are calculated using the T-matrix method.The impact of various cloud parameters is investigated. Simulated brightness temperatures most strongly depend on particle size, ice mass content and cloud altitude. The impact of particle shape is much smaller, but still significant. Increasing the ice mass content has a similar effect as increasing the particle size; this complicates the prediction of the impact of clouds on microwave radiances without exact knowledge of these cloud parameters. 相似文献
14.
利用红外高光谱探测仪(Infrared Atmospheric Sounding Interferometer,IASI)在二氧化碳吸收带的长短波红外通道对云反应程度的不同来探测云。依据不同通道的权重函数峰值高度和云不敏感层高度将IASI长短波红外通道进行配对,成功配对的长短波红外通道晴空亮温之间建立线性回归模型,即通过长波红外通道亮温可以线性回归得到配对的短波通道亮温,将短波通道的晴空回归亮温和观测亮温之差定义为云指数。权重函数峰值高度位于383 hPa的云指数空间分布和云成分为冰的空间分布较为一致,尤其在赤道和低纬度地区。权重函数峰值高度位于790 hPa的云指数空间分布和低云云顶气压也有较好的一致性。 相似文献
15.
16.
FY-2C高时间分辨率扫描数据在强对流云团监测中的应用研究 总被引:6,自引:1,他引:5
利用我国首次获取的静止气象卫星平均10 分钟观测间隔的高时间分辨率数据对2011 年6 月28 日~29日发生的一次强对流云团特征进行分析。Hovm?ller 分析图清晰地展示出在高时间分辨率观测条件下云团中心冷核的演变特征。高时间分辨率卫星资料与地面降水量进行联合分析,可推知对流云团中冷核的演变与地面小时降水量大值的落区间有很好的一致性;10 分钟雨量资料联合前推1 小时内7 次平均10 分钟观测间隔的卫星红外1通道亮温,分析可知地面雨量较大时,云顶像元亮温具有持续降低或维持低温状态的特点。反映出在对流性强降水中,冷且具有一定稳定性的云顶是产生大降水的主要特征。研究结果显示,静止气象卫星的高时间分辨率观测可很好地捕捉到强对流云团发展的演变特征,利用FY-2C 静止气象卫星红外1 通道亮温、红外1 通道与水汽通道亮温差在高时间分辨率观测中的时差特征变量,可实现对强对流云团初生的有效监测,为强对流云团的预测预报提供支撑。 相似文献
17.
以微波辐射传输模式为基础,正演模拟分析星载先进微波探测器(AMSU)窗区通道微波亮温对地表洪涝信息的敏感性,结果表明中心频点分别为31.4、50.3和89.0 GHz的AMSU窗区通道2、3和15的微波亮温对地表洪涝特征敏感;以正演模拟计算结果为基础,选择对地表洪涝特征敏感的AMSU窗区通道为因子,组合形成AMSU洪涝指数AFI(AMSU Flooding Index),进行地表洪涝区分类研究;地表洪涝分类结果与经机-地校验过的机载合成孔径雷达L-SAR资料分析结果进行对比分析,分类正确率可达73%。短时监测试验结果表明,应用美国第5代极轨业务环境卫星上装载的先进微波探测器(AMSU)微波资料可以在准全天候条件下,实现区域地表洪涝区分类实时监测,有效弥补红外和可见波段洪涝遥感探测技术在云天条件下无法实施的缺陷。 相似文献
18.
In recent studies (Spencer and Christy, 1990; and Spenceret al., 1990) it is suggested that observations at 53.74 GHz made by the Microwave Sounding Unit (MSU), flown on NOAA operational weather satellites, can yield a precise estimate of global mean temperature and its change as a function of time. Hansen and Wilson (1993) question their interpretation of temporal changes on the grounds that the microwave observations could be influenced by the opacity of the variable constituents in the atmosphere. This issue has broad interest because of the importance of detection of global climatic change.In order to help resolve this issue, in this study we utilize a radiative transfer model to simulate: (a) the observations of MSU Channel 1 (Ch. 1) at 50.3 GHz, in the weakly absorbing region of the 60 GHz molecular oxygen absorption band; and (b) the observations of MSU Channel 2 (Ch. 2) at 53.74 GHz, in the moderately strong absorption region of the same band. This radiative transfer model includes extinction due to clouds and rain in addition to absorption due to molecular oxygen and water vapor.The model simulations show that, over the oceans, extinction due to rain and clouds in Ch. 1 causes an increase in brightness temperature, while in Ch. 2 it causes a decrease. Over the land, however, both Ch. 1 and Ch. 2 show a decrease in brightness temperature due to rain and cloud extinction. These theoretical results are consistent with simultaneous observations in Ch. 1 and Ch. 2 made by MSU. Based on theory and observations we infer that a substantial number of the MSU observations at 53.74 GHz used by Spenceret al. contain rain and cloud contamination. As a result, their MSU derived global mean temperatures and long term trend is questionable. 相似文献
19.
极轨气象卫星S-NPP、MetOp-A和FY-3B上搭载的微波湿度计观测资料可以反映出台风周围水汽和云雨结构。本文使用权重函数峰值在800 hPa附近的微波湿度计通道观测资料和ERA5再分析资料全天空模拟亮温,以飓风Sandy和Isaac为例,对用方位谱台风中心位置定位方法得到的观测和模拟中心位置进行了比较。利用下午星S-NPP搭载的先进技术微波探测仪(Advanced Technology Microwave Sounder,ATMS)和上午星MetOp-A搭载的微波湿度计(Microwave Humidity Sounder,MHS)观测亮温得到的飓风Sandy(Isaac)中心位置与最佳路径平均相差35.8 km(32.9 km),但用ERA5全天空模拟亮温得到的飓风Sandy(Isaac)中心位置与最佳路径平均相差73.3 km(82.1 km)。若按照热带风暴和台风等级来划分,ATMS和MHS观测和模拟亮温得到的台风中心位置与最佳路径的平均距离对热带风暴分别是36.5 km和105.9 km,对台风分别是25.8 km和56.4 km。若用FY-3B搭载的微波湿度计(以MWHS表示)替换ATMS,所得结果类似。ERA5作为全球大气再分析资料的典型代表,用方位谱台风中心位置定位方法得到的台风中心位置误差较大的原因是ERA5再分析资料全天空模拟亮温在台风中的分布结构与观测亮温相差较大,而模拟亮温与冰水路径分布结构极为相似。研究对台风数值预报中的全天空模拟亮温资料同化具有一定的参考意义。 相似文献
20.
基于A-Train综合资料的云顶高度反演研究 总被引:1,自引:0,他引:1
提出一种适用性较强的云顶高度反演方法。利用2007年低纬地区(15°S~15°N)的A-Train综合资料反演云顶高度。首先以M0DIS通道31和通道32的亮温值为特征参数,基于SVM分类法,将云分为不透明云、半透明云和透明云三类,分类准确率达到90.6%。然后对三类云分别用核回归法反演云顶高度,将其与CloudSat的2B-GEOPROF-LIDAR产品对比,均方根误差分别为0.95、1.17和1.27 km。与未分类的核回归法结果相比,分类后三种云的反演误差都有所减小。最后分析了三个典型个例。该方法可推广至其他含有红外分裂窗通道的卫星上,发挥更多卫星资源的效用。 相似文献