共查询到17条相似文献,搜索用时 171 毫秒
1.
基于2014年8月1—16日AMSR-2的观测资料,采用谱差法重点对东亚陆地低频7.3 GHz的无线电频率干扰(RFI)进行识别与分析。研究发现,东亚地区7.3 GHz通道观测存在无线电频率干扰,其中韩国京畿道、大邱市,孟加拉国,越南及柬埔寨东南部地区的干扰源是稳定、持续的地面主动源。日本地区7.3 GHz通道RFI仅出现在AMSR-2升轨观测上,而降轨观测则几乎不受干扰,且RFI污染区出现的位置与强度随时间及辐射计扫描角度周期性变化,探究其污染源,发现主要来自地面反射的静止通信/电视卫星信号对星载微波被动传感器观测的干扰。 相似文献
2.
《湖北气象》2021,40(3)
星载可见光/红外仪器因其波长缺乏穿透云的能力,只能观测到云顶及其下部有限深度的信息,而星载被动微波仪器则因其波长较长,具有穿透云的能力而能获得云体信息,因此星载被动微波仪器较可见光/红外仪器观测云和降水更具有优势。自20世纪70年代末至今,美国投入了大量星载被动微波仪器,服务于天气预报等领域,促进了云和降水等参数的被动微波遥感反演算法的快速发展。本文聚焦星载被动微波遥感反演洋面云液态水研究的进展,旨在提升我国的星载被动微波仪器遥感应用能力。文章首先简介了几种微波辐射传输模式形式,其次介绍了被动微波通道(频率)对洋面参数和云液态水的敏感性研究,然后介绍了被动微波反演洋面云液态水的统计反演算法、物理反演算法、物理与统计相结合的反演算法、被动微波多通道多参数的同步反演算法、被动微波与可见光/红外相结合的反演算法,最后探讨了未来该领域研究的发展方向。 相似文献
3.
从118.75 GHz附近六通道亮温反演大气温度廓线的数值模拟研究 总被引:5,自引:0,他引:5
为了能在静止气象卫星上实现微波被动遥感探测大气温度廓线,并保持一定的地面空间分辨率(如视场小于60 km),就需要使用高频微波及大天线.欧洲和美国下一代静止气象卫星上都已考虑采用118.75 GHz附近通道.为了充分了解118.75 GHz附近通道遥感反演温度廓线的能力,为仪器研制及今后资料的解释反演提供必要的基础数据,作者开展了采用118.75 GHz附近六个通道遥感反演大气温度廓线的数值模拟研究.统计反演的数值试验表明,118.75 GHz附近六通道对温度垂直分布有一定的遥感反演能力;温度反演较好的层次对应于权重函数峰值所在的位置. 相似文献
4.
地球静止轨道微波观测同时具有高频次、大视场和穿透云雨的全天候观测能力,因此中国在规划第二代静止轨道气象卫星“风云四号”系列时已经明确提出对静止轨道微波观测的需求。基于中国候选的50、118、183、380和425 GHz五频段静止轨道微波辐射计载荷方案,开展了地球静止轨道微波观测系统模拟试验,理解其观测时间分辨率、频段选取和观测误差对台风预报的影响。试验基于GRAPES全球四维变分同化系统,同化静止轨道微波模拟观测资料,以2018年台风“玛利亚”和“山竹”为例分析了静止轨道微波资料同化对台风预报的影响。试验结果表明,对于静止轨道微波资料同化应用,提高观测资料的时间分辨率、增加通道数量和降低噪声水平能够有效提升台风数值预报性能。 相似文献
5.
先进微波辐射计(AMSR-E)的低频特性使其更容易受到无线电频率干扰(RFI),本文首先对比了谱差法和双主成分分析(Double Principal Component Analysis,DPCA)方法这两种RFI识别算法的差异,验证了DPCA方法的适用性,然后选用DPCA方法对2002年9月—2011年9月AMSR-E陆面升轨亮温月平均数据中的RFI进行识别,并分析其多年变化特征。DPCA方法可以有效地识别出AMSR-E全球范围内陆地亮温数据中的RFI分布情况。识别结果显示:1)C波段中的RFI主要分布在美国、东亚及印度—阿拉伯半岛地区;X波段主要分布在欧洲及东亚地区。2)各区域的RFI空间位置及强度随时间会发生变化,其原因可能是由于基础设施及使用无线电频谱的变化造成。3)不同区域月平均亮温数据中识别出的RFI信号数量存在季节变化,并且C波段中识别出的RFI数量随时间减少,X波段中随时间增加。 相似文献
6.
基于同一Aqua卫星上的中分辨率成像光谱仪MODIS的多通道数据和被动微波辐射计AMSR-E的微波数据,文中研究了由MODIS的热红外亮温TB11μm和可见光通道反射率R0.65μm估计中纬度降雨的方法。首先利用MODIS的R0.65μm>0.8和TB11μm<270 K检测降雨云,并利用一个非线性函数估计雨强。同时,利用AMSR-E微波降雨产品对MODIS降雨估计进行了验证,发现降雨范围和雨强基本一致,在2°格点上相关系数的平方达到0.82,这启示MODIS降雨估计可以达到与被动微波降雨估计相近的精度。与自动雨量站观测数据的检验也取得较好的效果。 相似文献
7.
卫星微波低频通道的亮温资料广泛存在无线电频率干扰信号,在微波观测应用于反演地球物理参数和资料同化之前,应准确识别出受到频率干扰污染的资料。常用的干扰识别方法包括谱差法、平均值和标准差法以及主分量分析法等,但没有可靠的频率干扰源分布数据集用于评估不同识别方法的准确性。本文提出利用两种独立的干扰识别方法进行交叉验证,获得AMSR-E资料中频率干扰信号的识别阈值。结果表明,该方案能有效识别出AMSR-E资料C波段和X波段通道在陆地上的无线电频率干扰信号。AMSR-E C波段资料在美国人口密集的大城市有较强的干扰信号存在,X波段的干扰信号主要分布在欧洲大陆和日本。 相似文献
8.
云液态水路径是气候和天气系统分析的重要参数,可以从卫星观测资料反演获得.目前,基于卫星微波探测仪器观测资料的云水算法可由23.8和31.4 GHz两个通道产生.本研究使用先进技术微波探测仪(ATMS)观测数据,对物理和经验两种算法反演出的云液态水路径进行验证评估.结果表明,经验算法和物理算法都可以描述云液态水在全球洋面... 相似文献
9.
卫星微波仪器的辐射率资料,由于兼具卫星观测的全天空优势和微波观测的全天候特性,成为数值天气预报系统同化的日益重要的角色。微波成像仪作为被动微波辐射计的重要一类,其在数值预报中的应用潜力亟待进一步的检验和更充分的挖掘。针对全球水循环变化观测卫星GCOM-W上搭载的第2代先进微波扫描辐射计AMSR2的10个通道,建立了半径200 km的稀疏化方案;研发了包含9项检验的质量控制方案,对于污染低频通道观测的太阳耀光现象和无线电信号干扰等因素进行屏蔽;设计基于经典预报因子的偏差订正方案,对仪器系统偏差进行有效的校正;采用基于变分同化后验估计的观测误差统计,克服了观测误差难以准确估计的问题。通过以上方法,GCOM-W AMSR2共有10个通道辐射率资料在中国自主研发的全球/区域同化预报系统(CMA_GFS,原名为GRAPES_GFS)3.0版的四维变分同化系统(4DVar)中实现了直接同化应用。1个月的批量试验证明,同化GCOM-W AMSR2后,CMA_GFS湿度分析场得到了一定的改进,各量级定量降水中期预报评分有所提高,同时,GCOM-W AMSR2辐射率直接同化对CMA_GFS南半球和赤道地区预报有明显正贡献。研究证实AMSR2能够很好地弥补常规观测资料稀疏区的资料匮乏,发挥水汽敏感特性,改进湿度分析和降水预报的技巧。 相似文献
10.
183.31 GHz微波辐射计在探测低含量水汽时具有优势,但也存在通道饱和问题,定量研究该问题对明确该类型仪器探测水汽能力和适用范围具有重要意义。基于天津市人工影响天气办公室增雨飞机运-12搭载的183.31 GHz微波辐射计GVR(G-band water Vapor Radiometer),采用探空资料对该辐射计4个通道进行饱和问题研究,定量计算其饱和阈值及探测灵敏度,分析各通道水汽探测能力及适用范围。结果表明:机载微波辐射计4个通道水汽探测灵敏度及饱和阈值与观测高度有关,当水汽含量较低时,通道1((183±1)GHz)观测高度越高灵敏度越高,通道3((183±7)GHz)和通道4((183±14)GHz)观测高度越高灵敏度越低,通道2((183±3)GHz)灵敏度几乎不受观测高度影响,通道1和通道4观测高度越高积分水汽探测饱和阈值越小,观测高度越低饱和阈值越大,通道2和通道3饱和阈值几乎不受观测高度影响。晴空条件下选择水汽探测能力最强的单通道对积分水汽含量进行反演,当积分水汽含量处于0—1.3、1.3—4.0和4.0—9.8 mm时,分别选择通道1、通道2、通道3作为反演通道,不同观测高度的积分水汽含量反演均适用。云的发射作用使辐射计各通道亮温升高,亮温升高幅度与云液态水含量、云与观测高度的距离及云厚有关,云液态水含量越大,各通道水汽探测灵敏度及饱和阈值越小;云天条件下选择水汽探测能力最强的双通道对积分水汽含量进行反演,以液态水路径区间来选择合适的水汽探测通道,液态水含量越高,积分水汽可探测范围越小。要探测到0.1 mm的积分水汽含量变化,机载微波辐射计(GVR)在晴空条件下的水汽探测适用范围为0—9.8 mm,其探测能力在云天条件下减弱,水汽探测适用范围因云液态水含量不同而不同。 相似文献
11.
Radio-frequency interference (RFI) affects greatly the quality of the data and retrieval products from space-borne microwave radiometry. Analysis of the Advanced Microwave Scanning Radiometer on the Earth Observing System (AMSR-E) Aqua satellite observations reveals very strong and widespread RFI contam- inations on the C- and X-band data. Fortunately, the strong and moderate RFI signals can be easily identified using an index on observed brightness temperature spectrum. It is the weak RFI that is diffi- cult to be separated from the nature surface emission. In this study, a new algorithm is proposed for RFI detection and correction. The simulated brightness temperature is used as a background signal (B) and a departure of the observation from the background (O-B) is utilized for detection of RFI. It is found that the O-B departure can result from either a natural event (e.g., precipitation or flooding) or an RFI signal. A separation between the nature event and RFI is further realized based on the scattering index (SI). A positive SI index and low brightness temperatures at high frequencies indicate precipitation. In the RFI correction, a relationship between AMSR-E measurements at 10.65 GHz and those at 18.7 or 6.925 GHz is first developed using the AMSR-E training data sets under RFI-free conditions. Contamination of AMSR-E measurements at 10.65 GHz is then predicted from the RFI-free measurements at 18.7 or 6.925 GHz using this relationship. It is shown that AMSR-E measurements with the RFI-correction algorithm have better agreement with simulations in a variety of surface conditions. 相似文献
12.
Evaluation of the Community Microwave Emission Model Coupled with
the Community Land Model over East Asia 
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下载免费PDF全文 The Community Microwave Emission Model (CMEM) developed by the European Centre for Me-dium-Range Weather Forecasts (ECMWF) can provide a link between surface states and satellite observations and simulate the passive microwave brightness temperature of the surface at low frequencies (from 1 GHz to 20 GHz).This study evaluated the performance of the CMEM cou-pled with the Community Land Model (CLM) (CMEM-CLM) using C-band (6.9 GHz) microwave brightness temperatures from the Advanced Microwave Scanning Radiometer on Earth Observing System (AMSR-E) over East Asia.Preliminary results support the argument that the simulated brightness temperatures of CMEM-CLM from July 2005 to June 2010 are comparable to AMSR-E observational data.CMEM-CLM performed better for vertical polarization,for which the root mean square error was approximately 15 K,compared to over 30 K for horizontal polarization.An evaluation performed over seven sub-regions in China indicated that CMEM-CLM was able to capture the temporal evolution of C-band brightness temperatures well,and the best correlation with AMSR-E appeared over western Northwest China (over 0.9 for vertical polarization).However,larger biases were found over southern North China and the middle and lower reaches of the Yangtze River. 相似文献
13.
The ECMWF has been assimilating Feng-Yun-3B(FY-3B) satellite microwave humidity sounder(MWHS) data over ocean in an operational forecasting system since 24 September 2014. It is more difficult, however, to assimilate microwave observations over land and sea ice than over the open ocean due to higher uncertainties in land surface temperature, surface emissivity and less effective cloud screening. We compare approaches in which the emissivity is retrieved dynamically from MWHS channel 1 [150 GHz(vertical polarization)] with the use of an evolving emissivity atlas from 89 GHz observations from the MWHS onboard NOAA and EUMETSAT satellites. The assimilation of the additional data over land improves the fit of short-range forecasts to other observations, notably ATMS(Advanced Technology Microwave Sounder) humidity channels, and the forecast impacts are mainly neutral to slightly positive over the first five days. The forecast impacts are better in boreal summer and the Southern Hemisphere. These results suggest that the techniques tested allow for effective assimilation of MWHS/FY-3B data over land. 相似文献
14.
The Microwave Radiation Imager (MWRI) on board Chinese Fengyun-3 (FY-3) satellites provides measurements at 10.65, 18.7, 23.8, 36.5, and 89.0 GHz with both horizontal and vertical polarization channels. Brightness temperature measurements of those channels with their central frequencies higher than 19 GHz from satellite-based microwave imager radiometers had traditionally been used to retrieve cloud liquid water path (LWP) over ocean. The results show that the lowest frequency channels are the most appropriate for retrieving LWP when its values are large. Therefore, a modified LWP retrieval algorithm is developed for retrieving LWP of different magnitudes involving not only the high frequency channels but also the lowest frequency channels of FY-3 MWRI. The theoretical estimates of the LWP retrieval errors are between 0.11 and 0.06 mm for 10.65- and 18.7-GHz channels and between 0.02 and 0.04 mm for 36.5- and 89.0-GHz channels. It is also shown that the brightness temperature observations at 10.65 GHz can be utilized to better retrieve the LWP greater than 3 mm in the eyewall region of Super Typhoon Neoguri (2014). The spiral structure of clouds within and around Typhoon Neoguri can be well captured by combining the LWP retrievals from different frequency channels. 相似文献
15.
The Microwave Radiation Imager(MWRI) on board Chinese Fengyun-3(FY-3) satellites provides measurements at 10.65, 18.7, 23.8, 36.5, and 89.0 GHz with both horizontal and vertical polarization channels. Brightness temperature measurements of those channels with their central frequencies higher than 19 GHz from satellite-based microwave imager radiometers had traditionally been used to retrieve cloud liquid water path(LWP) over ocean. The results show that the lowest frequency channels are the most appropriate for retrieving LWP when its values are large. Therefore, a modified LWP retrieval algorithm is developed for retrieving LWP of different magnitudes involving not only the high frequency channels but also the lowest frequency channels of FY-3 MWRI. The theoretical estimates of the LWP retrieval errors are between 0.11 and 0.06 mm for 10.65-and 18.7-GHz channels and between0.02 and 0.04 mm for 36.5-and 89.0-GHz channels. It is also shown that the brightness temperature observations at10.65 GHz can be utilized to better retrieve the LWP greater than 3 mm in the eyewall region of Super Typhoon Neoguri(2014). The spiral structure of clouds within and around Typhoon Neoguri can be well captured by combining the LWP retrievals from different frequency channels. 相似文献
16.
STUDIES OF THE VERTICAL STRUCTURE MODEL AND THE MICROWAVE ATTENUATION OF CLOUDS AND PRECIPITATION OVER TROPICAL OCEAN AREA* 下载免费PDF全文
下载免费PDF全文 Using radiosonde data and other related observations in the TOGA-COARE IOP(from November 1,1992 to February 28,1993),the microwave attenuation of non-precipitating clouds is investigated based on microwave radiative transfer model(MRTM) at the specific frequencies of 6.8,10.65,13.9,19.35,22.235,37.0,85.5 and 90.0 GHz.Besides,utilizing the data of the airborne radar and radiometer at 13.8 GHz in the IOP(Intensive Observation Period),vertical structure models for different types of precipitating clouds are obtained,and also the microwave attenuation of precipitating cloud is studied.Some statistical characteristics of 13.8 GHz microwave path integrated attenuation for stratiform and convective precipitating clouds are presented.The results given here are valuable for the spaceborne microwave remote sensing of precipitation,and the cloud and precipitation attenuation corrections in the spaceborne microwave remote sensing of earth surface over tropical ocean area. 相似文献
17.
STUDIES OF THE VERTICAL STRUCTURE MODEL AND THE MICROWAVE ATTENUATION OF CLOUDS AND PRECIPITATION OVER TROPICAL OCEAN AREA 下载免费PDF全文
下载免费PDF全文 Using radiosonde data and other related observations in the TOGA-COARE IOP(fromNovember 1,1992 to February 28,1993),the microwave attenuation of non-precipitating clouds isinvestigated based on microwave radiative transfer model(MRTM)at the specific frequencies of6.8,10.65,13.9,19.35,22.235,37.0,85.5 and 90.0 GHz.Besides,utilizing the data of theairborne radar and radiometer at 13.8 GHz in the IOP(Intensive Observation Period),verticalstructure models for different types of precipitating clouds are obtained,and also the microwaveattenuation of precipitating cloud is studied.Some statistical characteristics of 13.8 GHzmicrowave path integrated attenuation for stratiform and convective precipitating clouds arepresented.The results given here are valuable for the spaceborne microwave remote sensing ofprecipitation,and the cloud and precipitation attenuation corrections in the spaceborne microwaveremote sensing of earth surface over tropical ocean area. 相似文献