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1.
利用黄土高原地区加强观测期探空资料和大气红外探测器(Atmospheric Infrared Sounder,AIRS)反演的温度、相对湿度廓线资料,评估了AIRS反演产品在黄土高原的适用性,以及利用AIRS温度廓线计算边界层高度的可行性。结果表明,各种边界层高度计算方法相关性显著,平均高度差异一般不超过200 m;Richardson数临界值的选取对确定边界层高度的影响不大。AIRS反演的大气温度和相对湿度均能很好地反映环境温湿的变化;温度平均偏差在±1 K以内,均方根误差一般不超过2 K;AIRS反演的地面气温误差相对较大,平均偏差和均方根误差分别为-1.68 K和3.32 K,并且会影响边界层高度的确定;AIRS相对湿度平均偏差在±10%以内,均方根误差不超过20%。利用Parcel法估计的边界层高度结果显示,根据AIRS反演的温度廓线确定的AIRS边界层高度低于利用探空观测资料确定的边界层高度,但能较好地再现边界层高度的变化,在没有探空数据时,可以用AIRS反演的温度廓线确定边界层高度。 相似文献
2.
红外高光谱资料模拟大气廓线反演对云的敏感性 总被引:3,自引:1,他引:2
用不同云顶高度和不同有效云量时的星载红外高光谱观测值,模拟大气温湿垂直廓线反演对云参数的敏感性。用特征向量统计反演法按照云顶高度和有效云量分类反演了大气温湿廓线,统计了不同云高(200,300,500,700和850hPa)及云高有50hPa误差时温度、水汽混合比反演的均方根误差随有效云量的变化。结果表明,随着有效云量的增大,云顶以下各高度层上的温度、水汽混合比反演误差都明显增大。云高有50hPa误差较准确已知而言,温度和水汽混合比的反演误差增大,但温度反演对云高误差的敏感性比水汽反演要高。 相似文献
3.
利用2013年1月MODIS(MODerate-resolution Imaging Spectroradiometer)的大气廓线产品计算得到大气相对湿度廓线,并与探空观测得到的相对湿度资料进行对比,发现总体上MODIS反演的相对湿度高于探空值,且在相对湿度较低区域误差较大;需要剔除有云影响的MODIS数据和相对湿度小于5%的探空数据;用平均值订正法对MODIS数据进行均一性修正,采用直接订正法、最大相关系数法开展MODIS和探空相对湿度资料融合试验,对融合结果进行分析对比和精度检验。结果表明:(1)直接订正法融合湿度在相对湿度较低区域高于探空湿度,在相对湿度较高区域低于探空湿度,最大相关系数法融合湿度在高湿区和低湿区均与探空接近;(2)融合结果精度检验表明,直接订正法融合湿度与探空湿度的平均绝对误差在850 hPa不超过10%,在925 hPa不超过12%,在1000 hPa不超过9%;采用最大相关系数法融合得到的相对湿度值在各层与探空湿度的绝对误差均不超过4%。总体来看最大相关系数法比直接订正法融合效果更好。 相似文献
4.
Jinqiang Zhang Yuejian Xuan Jianchun Bian Holger V?mel Yunshu Zeng Zhixuan Bai Dan Li Hongbin Chen 《大气和海洋科学快报》2024,(1):16-22
从2013年开始,作者团队使用自主研发电化学原理臭氧探空仪在华北平原北京地区进行每周一次观测.本研究首次使用2013-2019年期间北京地区臭氧探空数据评估Aqua卫星搭载大气红外探测仪(AIRS)和Aura卫星搭载微波临边探测器(MLS)反演垂直臭氧廓线,并对比臭氧探空,AIRS和Aura卫星搭载臭氧监测仪(OMI)臭氧柱总量结果.尽管臭氧探空与卫星反演垂直臭氧廓线在局部高度处差异较大,但整体来说两者较为接近(相对偏差大多<10%).臭氧探空,AIRS和OMI三种仪器测量臭氧柱总量的年变化特征较为一致,其年均臭氧柱总量分别为351.8±18.4 DU,348.8±19.5 DU和336.9±14.2 DU.后续对国内多站点观测数据分析将有助于进一步理解臭氧探空与卫星反演臭氧资料在不同区域的一致性. 相似文献
5.
上对流层水汽分布对于全球能量和水循环具有非常重要的影响。利用美国Aqua卫星红外高光谱仪器(AIRS)反演的湿度廓线资料对中国上对流层水汽时空分布特征进行了分析。为了保证卫星反演湿度廓线产品精度可以满足气候特征分析的需求,首先利用JICA野外加密探空试验观测数据对卫星反演湿度廓线进行了真实性检验,分析表明,Aqua卫星搭载的AIRS反演的湿度廓线与探空加密观测数据总体具有较好的相关性,在200 hPa高度相对湿度偏差在5%以内,其精度可以用于上对流层水汽气候特征的分析。通过趋势分析以及EOF分解等方法,分析了2003年1月-2013年12月的中国区域上对流层水汽时空分布特征,结果表明,受夏季风影响,中国区域上对流层水汽具有明显的季节变化规律和年周期特征,中国大部分地区上对流层冬季偏干、夏季偏湿,夏季高湿区可以北移到35°N以北。而在新疆地区冬季偏湿、夏季偏干。总体来说,全年夏季水汽含量最高,秋季次之,冬季最小。2003年以来新疆地区及南部海域上对流层水汽呈显著增加趋势,华南、华北、内蒙古中西部水汽也有所增加,在高原地区及东北区域上对流层水汽稍有减少,但变化均不显著。上对流层水汽的增加,将有可能放大温室效应,在气候变化研究中应给予重视。 相似文献
6.
大气红外探测器(AIRS)温、湿度反演产品的有效性检验及在数值模式中的应用研究 总被引:6,自引:0,他引:6
利用中国540个地面气象观测站点资料,对1和7月大气红外探测器(AIRS)的反演中国区域地面气温精度做了详细评估,分析了产生误差的原因。同时把AIRS的反演温、湿度廓线产品与T213数值预报产品进行比较,分析了它们之间的差异。为进一步考察AIRS温、湿度产品的有效性,我们把经过订正的AIRS地面气温以及温、湿度廓线产品分析同化到中尺度模式MM5中,用于华北降雪天气过程的对比模拟试验,分析AIRS反演产品对降雪量、水汽场、垂直速度场、散度场以及云物理过程等的影响。 相似文献
7.
在地基高光谱遥感中,特征向量法获取的温湿廓线以初值的方式对物理反演进行约束,其反演精度对物理反演结果有着重要的影响。利用AERI的观测辐射资料和同站点的探空数据,基于特征向量法分析了温度廓线与湿度廓线反演的异同点;研究了主成分个数的选择问题,综合考虑反演精度和特征向量中包含的信息将反演温度廓线和湿度廓线的最优主成分个数定为7。为提高反演精度,引入地面温度、湿度、气压作为影响因子,试验结果表明,考虑反演精度和稳定性,地面气压的引入相比于其他2种单一气象要素以及3种气象要素组成的因子集表现更好,尤其是对边界层中下部的温湿廓线有着明显的提升,并随着高度的降低提升作用更明显,温度廓线RMSE降低最高达到1.5K,湿度廓线RMSE降低最高达到0.42g/kg。同时,分析了对数反演形式对湿度廓线的影响,结果表明,以水汽混合比的形式反演时取自然对数对反演精度的影响较小;将反演得到的水汽混合比转化为相对湿度后,取自然对数对反演精度有12%以上的提升。 相似文献
8.
利用中位数方法对风廓线雷达数据质量控制的研究 总被引:2,自引:0,他引:2
风廓线雷达的测风原理是假定风场是均匀的,而在实际探测中往往会出现不满足均匀风场的假定情况(特别是在有降水系统影响情况下),进而影响雷达测风精度。采用求取中位数法对风廓线雷达观测资料进行质量控制,并结合气球探空资料,对比分析质量控制效果。结果显示:(1) 受风廓线雷达的探测原理以及系统灵敏度的影响,当大气较干时,雷达的探测高度较低,当相对湿度增加时,探测高度随之增大;(2) 在晴空条件下,求取中位数法得到的结果以及雷达原始探测结果相对于气球探空观测到的结果随高度变化的趋势一致,误差较小,利用求取中位数法得到的结果对原始结果有一定的改善效果;(3) 当有降水发生时,求取中位数法得到的结果以及雷达原始探测结果相对于探空资料误差增大,但利用中位数法得到的结果相对于原始探测资料有明显的改善;(4) 相比于低层和高层的误差分布,1~2 km高度上利用中位数方法所得到的风向、风速误差最小,对数据质量的改善效果最好。 相似文献
9.
利用地基微波辐射计资料反演0-10km大气温湿廓线试验研究 总被引:3,自引:0,他引:3
实测与模拟的微波辐射计亮温存在偏差,导致基于BP神经网络模型的大气温湿廓线反演精度的降低。研究了一种基于资料订正后的BP神经网络反演大气温湿廓线的方法。首先,基于2014年6月南京江宁探空资料,利用MonoRTM模式,模拟中心频率在22.2GHz~58.8GHz范围内22通道亮温;对比模拟和实测南京站微波辐射计资料,建立实测微波辐射计资料订正模型。然后,以南京地区2011-2013年探空资料为输入,模拟22通道亮温数据,并基于模拟的22通道亮温数据和当地探空资料,利用BP神经网络算法,建立大气温度、水汽密度、相对湿度廓线反演模型。最后,利用构建的订正模型,对2014年7月试验获取的微波辐射计资料进行订正,并将订正后的微波辐射计资料输入BP神经网络反演模型,反演0-10km高度58层的大气温度、水汽密度和相对湿度,对比实际探空资料以及微波辐射计二级产品,评估分析反演效果。实验结果表明:所建的反演模型提高了大气温湿廓线反演精度,大气温度、水汽密度和相对湿度均方根误差范围分别为1.0~2.0K、0.20 ~1.93g/m3和2.5%~18.6%。 相似文献
10.
基于一维变分算法的地基微波辐射计遥感大气温湿廓线研究 总被引:3,自引:1,他引:2
为研究地基微波辐射计遥感温、湿度廓线的一维变分算法的反演能力,用北京地区2010—2011年00和12时(世界时)的多通道地基微波辐射计亮温资料进行试验。首先,利用同时次的地面观测资料、红外亮温(由地基微波辐射计自带红外传感器测得)及探空观测数据,给出提取无云样本的方案,得到432个无云样本;再以辐射传输模式计算得到的模拟亮温为参考,对无云条件下的观测亮温进行质量控制;然后利用探空数据进行模拟试验,结果发现,一维变分算法对3 km以下的温度廓线有较大调整。使反演结果更加接近探空,而对湿度廓线在0—10 km都有不同程度的优化;最后利用一维变分算法对地基微波辐射计观测亮温进行大气温湿廓线反演,将结果与探空对比可以看出,温度廓线的均方根误差小于2.9 K,绝对湿度的均方根误差小于0.47 g/m~3;进一步与地基微波辐射计自带神经网络的反演结果比较表明,一维变分的反演结果更接近实际大气。 相似文献
11.
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
12.
The accuracy of the retrieved NO2 vertical columns using satellite observations under cloudy conditions have been studied using the radiative transfer code SCIATRAN. It was found that the tropospheric nitrogen dioxide columns can be retrieved in the case of thin clouds, if their optical properties and the altitude are retrieved from independent observations. The dependence of the retrieval error on the accuracy of the information on cloud top height and cloud optical thickness is studied. 相似文献
13.
In older to calculate updated coefficients for atmospheric temperature retrieval from satellite sounding data and radiosonde data, it is necessary to form statistical samples of real radiance and radiosonde data match-ups. A procedure is presented here for the data matchups. And a method of eigenvectors of statistical covariance matrices is used to produce updated coefficients for atmospheric temperature retrieval. The updated coefficients produced are tested using radiance observations from NOAA-7 satellite. Comparisons of these real-time retrieved data with radiosonde data show that the atmospheric temperature profiles retrieved have an accu-racy of RMS 2-3 degrees (oC). In addition, the error sources are also discussed. 相似文献
14.
One-Dimensional Variational Retrieval of Temperature and Humidity Profiles from the FY4A GIIRS 总被引:1,自引:0,他引:1
A physical retrieval approach based on the one-dimensional variational(1 D-Var) algorithm is applied in this paper to simultaneously retrieve atmospheric temperature and humidity profiles under both clear-sky and partly cloudy conditions from FY-4 A GIIRS(geostationary interferometric infrared sounder) observations. Radiosonde observations from upper-air stations in China and level-2 operational products from the Chinese National Satellite Meteorological Center(NSMC)during the periods from December 2019 to January 2020(winter) and from July 2020 to August 2020(summer) are used to validate the accuracies of the retrieved temperature and humidity profiles. Comparing the 1 D-Var-retrieved profiles to radiosonde data, the accuracy of the temperature retrievals at each vertical level of the troposphere is characterized by a root mean square error(RMSE) within 2 K, except for at the bottom level of the atmosphere under clear conditions. The RMSE increases slightly for the higher atmospheric layers, owing to the lack of temperature sounding channels there.Under partly cloudy conditions, the temperature at each vertical level can be obtained, while the level-2 operational products obtain values only at altitudes above the cloud top. In addition, the accuracy of the retrieved temperature profiles is greatly improved compared with the accuracies of the operational products. For the humidity retrievals, the mean RMSEs in the troposphere in winter and summer are both within 2 g kg–1. Moreover, the retrievals performed better compared with the ERA5 reanalysis data between 800 h Pa and 300 h Pa both in summer and winter in terms of RMSE. 相似文献
15.
16.
The physical retrieval algorithm of atmospheric temperature and moisture distribution from the Atmospheric InfraRed Sounder (AIRS) radiances is presented. The retrieval algorithm is applied to AIRS clear-sky radiance measurements. The algorithm employs a statistical retrieval followed by a subsequent nonlinear physical retrieval. The regression coefficients for the statistical retrieval are derived from a dataset of global radiosonde observations (RAOBs) comprising atmospheric temperature, moisture, and ozone profiles. Evaluation of the retrieved profiles is performed by a comparison with RAOBs from the Atmospheric Radiation Measurement (ARM) Program Cloud And Radiation Testbed (CART) in Oklahoma, U. S. A.. Comparisons show that the physically-based AIRS retrievals agree with the RAOBs from the ARM CART site with a Root Mean Square Error (RMSE) of 1K on average for temperature profiles above 850 hPa, and approximately 10% on average for relative humidity profiles. With its improved spectral resolution, AIRS depicts more detailed structure than the current Geostationary Operational Environmental Satellite (GOES) sounder when comparing AIRS sounding retrievals with the operational GOES sounding products. 相似文献
17.
《大气与海洋》2013,51(4):211-225
Abstract A variational estimation procedure for the simultaneous retrieval of cloud parameters and thermodynamic profiles from infrared radiances is proposed. The method is based on a cloud emissivity model which accounts for the frequency dependence of cloud absorption and scattering and possible mixed phase situations. An effective cloud top height and emissivity are assumed. Monte Carlo experiments performed in a 1D‐var assimilation context using simulated Atmospheric Infrared Radiance Sounder (AIRS) observations from 100 channels demonstrate the substantial added value, in theory, of cloudy radiance assimilation as opposed to clear‐channel assimilation. Improved temperature and humidity retrievals are obtained for a broad layer above the cloud as well as below cloud level under partial cloud cover conditions. The impact is most pronounced in broken to overcast situations involving mid‐level clouds. In these situations, the effective cloud top height and emissivity are retrieved with estimated rms errors typically lower than 30 hPa and 3%, respectively. Expected relative errors on the retrieved effective particle size are of the order of 30–50%. The methodology is directly applicable to real hyperspectral infrared data upon inclusion, for local estimation, of the cloud parameters in the Canadian 4D‐var assimilation system. 相似文献
18.
利用2012年1月至2014年8月重庆沙坪坝站的微波辐射计和探空数据,通过数值模拟检验微波辐射计的亮温精度,并统计分析晴空、有云和降水天气条件下微波辐射计反演产品的变化特征。结果表明:(1)有云时微波辐射计氧气通道53.85、54.00 GHz亮温与探空观测温度相关性较好;晴空和有云时MonoRTM模拟亮温与微波辐射计观测亮温相关性较好。(2)不同天气条件下,微波辐射计反演温度与探空观测值的相关性都较高,降水时4.0 km以下微波辐射计反演温度明显偏高,有云和晴空时3.8 km以下的温度平均绝对误差小于2℃。微波辐射计反演的相对湿度与探空观测值的相关性较同高度层温度的相关性差,有云时1.0~2.6 km高度反演的相对湿度平均误差很小,降水时4.5 km以下平均误差也较小且稳定。降水时4.0 km以下微波辐射计反演的水汽密度平均误差明显偏大,有云时多数高度层平均误差较小。(3)4.2 km以下降水时08:00微波辐射计反演温度的平均误差较大,有云时08:00微波辐射计反演温度和水汽密度的平均误差均较小。说明微波辐射计反演的大气廓线具有可用性,且在稳定大气环境中反演效果更好。 相似文献
19.
Analysis of ice water path retrieval errors over tropical ocean 总被引:1,自引:0,他引:1
Retrieval of multi-layered cloud properties, especially ice water path (IWP), is one of the most perplexing problems in satellite cloud remote sensing. This paper develops a method for improving the IWP retrievals for ice-over-water overlapped cloud systems using Tropical Rainfall Measuring Mission (TRMM) Microwave Imager (TMI) and Visible and Infrared Scanner (VIRS) data. A combined microwave, visible and infrared algorithm is used to identify overlapped clouds and estimate IWP separately from liquid water path. The retrieval error of IWP is then evaluated by comparing the IWP to that retrieved from single-layer ice clouds surrounding the observed overlapping systems. The major IWP retrieval errors of overlapped clouds are primarily controlled by the errors in estimating the visible optical depth. Optical depths are overestimated by about 10–40% due to the influence of the underlying cloud. For the ice-over-warm-water cloud systems (cloud water temperature Tw > 273 K), the globally averaged IWP retrieval error is about 10%. This cloud type accounts for about 15% of all high-cloud overlapping cases. Ice-over-super-cooled water clouds are the predominant overlapped cloud system, accounting for 55% of the cases. Their global averaged error is 17.2%. The largest IWP retrieval error results when ice clouds occur over extremely super-cooled water clouds (Tw 6 255 K). Overall, roughly 33% of the VIRS IWP retrievals are overestimated due to the effects of the liquid water clouds beneath the cirrus clouds. To improve the accuracy of the IWP retrievals, correction models are developed and applied to all three types of overlapped clouds. The preliminary results indicate that the correction models reduce part of the retrieval error. 相似文献
20.
地基遥感大气水汽总量和云液态水总量的研究 总被引:9,自引:1,他引:9
介绍了地基微波辐射计遥感反演大气柱中的水汽总量和云液态水总量的辐射传输原理和反演方法。给出了实用的有气候代表性的北京地区4个季节的反演公式,并对反演公式进行了数值检验,分析了反演精度:春、夏、秋、冬4季水汽总量反演的相对标准偏差分别为3.1%、1.6%、2.2%和2.4%。用反演公式反演在香河探测的NASA微波辐射计资料发现:微波辐射计反演的水汽总量平均比探空测量值偏大O.21cm,二者的线性相关系数为0.988.均方根误差为0.16cm:云液态水总量除降水云天外.值均在0.1mm以下。 相似文献