微波遥感大气湿度层结的研究

根据大气噪音谱,用接收1.35cm微波噪音,遥感大气湿度层结。研制了1.35cm微波辐射计(v=22.235 Gc)。用迭代法反演大气湿度层结,在野外实验中与无线电探空仪对比,比湿相差的百分比,均方根偏差在700 mb以下<20％,650 mb以下<29％;大气中水汽总含量的测量,两者相差为3％。为了遥感雨中含水量,研制3cm微波辐射计(v=9.37 Gc)。并测试了大气噪音。     

微波遥感在大气边界层预报中的应用

本文利用5mm(54.5 GHz)微波辐射计遥感大气边界层的温度廓线,并利用大气边界层数值模式,预报大气边界层的发展。首先改善5 mm微波辐射计遥感大气温度层结的方法,提高精度;其次建立模拟和预报大气边界层发展的一维数值模式,用微波辐射计观测结果每3小时对模式进行一次初始化,使模式能跟踪和预报实际大气边界层的发展,并用实测资料做了验证。     

微波遥感大气温度层结的原理和试验

一、引言 利用5毫米微波段大气辐射的地面遥感,反演大气温度压力层结。本文将讨论它的原理、仪器和试验结果。这项工作最初在北京大学进行原理性的探索。随后分别与上海气象仪器厂和北京768厂合作研制成A型微波辐射计及B型微波辐射计两种试验样机,并对两种试验样机作了野外考察试验。从观测结果上看,可以用它遥感十公里以下大气温度层结,低空逆温能够明显地反应,高空逆温反演误差较大。5公里以下均方根误差在2—3°K以内,5公里以上误差还要大些。     

微波波段氧分子吸收系数的简化公式

研究氧分子在微波5mm附近的吸收系数,对于卫星和地面微波遥感大气温度,有重要的意义。为了迅速而准确地遥感大气温度层结,需要有一个简单而精确的吸收系数表达式。我们分别求出:在一定温度、压力范围内,5mm波段氧分子吸收系数近似表达式及标准等压面上5mm波段氧分子吸收系数与温度关系的近似表达式。以这些公式取代Meeks-Lilley公式,来提高遥感的时效。     

车载微波辐射计移动大气走航观测实验及初步应用

地基多通道微波辐射计能够实现大气温湿度廓线参数的实时观测与反演，在大气探测中已经得到了广泛的应用。但是，受到观测方式和数据反演算法的限制，目前主要应用于地面固定站点上空的大气参数遥感探测，无法实现大气参数的移动观测。因此，尝试将自主研制的地基多通道微波辐射计进行改进并安装在车载平台上，对车载微波辐射计移动大气观测可行性进行了验证。实验结果表明车载微波辐射计移动观测是可行的。此外，利用车载移动走航观测数据，对西安城市热岛效应和对流有效位能（CAPE）进行了分析。结果显示，移动走航观测能够用于观测城市热岛效应，西安中心区域比郊区温度高出约1.0℃左右，城市中心的大气对流有效位能也比郊区高出1000～2000J/kg。通过这次实验为微波辐射计的车载移动观测和应用进一步奠定了基础。     

基于气象资料变化特征和辐射传输模式的微波辐射计工作状态分析

提出利用晴天每天早晨08时的观测资料,以大气温度季节变化统计特征为依据,来判断微波辐射计观测期间的工作状态。简要介绍了大气微波辐射传输方程,以南京冬春季节大气温度变化的统计特征为依据,以2010年11月27日—2011年5月29日期间南京某辐射计08时晴天的实验观测资料为例,通过对其12个通道的亮温观测值和计算值进行统计对比和物理分析,给出该辐射计实验观测期间的工作状态判断,认为用于湿度遥感的22.235、23.035、23.835、26.235和30.000GHz五个通道观测期间工作状态良好、稳定,而用于温度遥感的51.25、52.28、53.85、54.94、56.66、57.29和58.80 GHz七个通道性能一直衰退。本文提出的方法可供微波辐射计工作状态监测和观测资料质量控制参考。     

微波遥感大气展望

一、遥感是一种探测的手段它是在不与物体直接接触的情况下,接收物体发射或散射的电磁波或声波信息,经过反演技术,显现出物体的特性.微波遥感大气是利用接收大气发射出来的微波噪音,用以遥感大气的特性和天气的变化. 由于大气气体分子或水滴中水分子的热运动,使之不断地发射出电磁波辐射,它作为遥感的信息.在大气遥感中经常使用红外波段信息和微波波段的信息.由于微波有穿     

地基微波辐射资料在短时暴雨潜势预报中的应用

利用湖北咸宁站2008年6月1日—2012年8月1日地基微波辐射计观测数据反演的相对湿度、大气液态水含量、大气水汽总量、大气层结曲线,对比分析了短时暴雨与一般降水过程发生前微波辐射计观测资料反映的特征,研究微波辐射计观测资料在短时暴雨潜势预报中的应用。结果表明:当大气液态水含量从1 mm左右急增至约20 mm、大气水汽总量从60~70 mm急增到90 mm以上之后,如果0~6 km整层相对湿度均接近饱和或达到饱和状态,且在800~950 hPa附近存在逆温层,最大K指数超过35℃,最大TT指数 (Thei-Tornqvist指数) 达到或超过40℃,那么未来3 h或6 h内发生短时暴雨的几率大。     

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

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%。     

基于激光雷达和微波辐射计观测确定混合层高度方法的比较

利用苏州地区2010年1月4,7,16日和2月4日4天的激光雷达及微波辐射计观测资料,比较了不同遥感手段探测晴天大气混合层高度的差异,发现试验期间该地区的混合层高度在300~1500 m之间。利用梯度法、标准偏差法、小波法从激光雷达数据中提取混合层高度并进行了对比,结果表明三种方法都能较好地反演混合层高度并且一致性较好,三者差异主要存在于大气边界层的发展和消亡阶段;梯度法和小波法结果无明显差异,而标准偏差法结果稍高于其他方法。在此基础上,利用微波辐射计探测的大气温度,使用温度梯度法估算大气混合层高度,并与激光雷达探测结果进行了比较,结果表明,大多数情况下激光雷达探测结果高于微波辐射计观测结果;两种遥感手段有较好的相关性,相关系数为0.76。激光雷达同微波辐射计结果存在差异,尤其是在边界层的发展和消散阶段,这是由两种遥感手段探测原理不同造成的。     

SIMPLIFICATION OF THE OXYGEN-ABSORPTION COEFFICIENT FORMULA IN MICROWAVE BAND

Study of the oxygen-absorption coefficient in 5mm wave band is important for remote sensing of theatmospheric temperature profile from satellites or ground.In order to obtain the atmospheric temperatureprofile rapidly and accurately,it is necessary to have a simple,but accurate formula of the oxygen-absorp-tion coefficient.In this paper,formulae of the oxygen-absorption coefficient in a certain range of tempera-ture-pressure and at a standard isobaric surface have been derived.These formulae may substitute for Meeks-Lilley formula in remote sensing of the atmosphere.     

有云时大气红外遥感及其反演问题 I. 理论研究

我们已经研究了晴空情况下的大气红外遥感及其反演问题。本文对有云情况下的大气红外遥感及其反演问题进行了研究，首先指出国际上通用的处理有云反演的晴空订正法存在误差放大问题，然后提出了3×3相邻视场同步反演法，在该方法中，假定3×3相邻视场具有共同的大气温度廓线和大气水汽廓线，从而使求解方程数增加到9倍，而反演参数只增加有限的几个，大大提高了有云情况下反演的稳定性。     

Study on Microwave Remote Sensing of Atmosphere, Cloud and Rain

In this paper, recent research of microwave remote sensing of atmosphere, cloud and rain in China is presented. It includes the following aspects:(1) Progress in the development of multifrequency radiometer and its characteristics and parameters;(2) Application of microwave remote sensing in prediction of atmospheric boundary layer. The atmospheric temperature profiles are derived with 5 mm (54.5 GHz) radiometer angle-scanning observations. Due to the fact that microwave radiometer could monitor the atmospheric temperature profile continuously and make the initialization of numerical model any time, it is helpful for improving the accuracy in prediction of the evolution of atmospheric boundary layer;(3) Theory and application of microwave radiometers in monitoring atmospheric temperature, humidity and water content in cloud. The field experiment of International Satellite Cloud Climatology Project (ISCCP) at Shionomisaki and Amami Oshima of Japan for studies of cloud and weather has been described;(4) Satellite remote sensing of atmosphere and cloud. The TIROS-N TOVS satellite data are used to obtain at-mospheric temperature profile. The results are compared with those of radiosonde, with rms deviation smaller than that of the current operational TOVS processing;(5) Microwave remote sensing and communication. The atmospheric attenuations are derived with microwave remote sensing methods such as solar radiation method etc., in order to obtain the local value instantaneously. The characteristics of Beijing’s rainfall have been analysed and the probability of microwave attenuation of rain is predicted;(6) For improvement of the accuracy of rainfall measurement, a radiometer-radar system (λ= 3.2 cm) has been developed. The variation of rainfull distribution and area-rainfall may be obtained by its measurements, which may be helpful for hydrological prediction.The prospect of microwave remote sensing in meteorology is also discussed.     

Validation of the Atmospheric Infrared Sounder Retrieval Products over China and Their Application in Numerical Model

The atmospheric infrared sounder (AIRS) instrument onboard Aqua Satellite is a high spectral resolution infrared sounder. In recent years, AIRS has gradually become the primary method of atmospheric vertical observations. To examine the validation of AIRS retrieval products (V3.0) over China, the AIRS surface air temperature retrievals were compared with the ground observations obtained from 540 meteorological stations in July 2004 and January 2005, respectively. The sources of errors were considerably discussed. Based on the error analysis, the AIRS retrieved surface air temperature products were systemi-cally corrected. Moreover, the AIRS temperature and humidity profile retrievals were compared with T213 numerical forecasting products. Because T213 forecasting products are not the actual atmospheric states, to further verify the validation, the AIRS temperature and humidity profile products were assimilated into the MM5 model through the analysis nudging. In this paper, the case on February 14, 2005 in North China was simulated in detail. Then, we investigated the effects of AIRS retrievals on snowfall, humidity field, vertical velocity field, divergence field, and cloud microphysical processes. The major results are: (1) the errors of AIRS retrieved surface air temperature products are largely systematic deviations, for which the influences of terrain altitude and surface types are the major reasons; (2) the differences between the AIRS atmospheric profile retrievals and T213 numerical prediction products in temperature are generally less than 2 K, the differences in relative humidity are generally less than 25%; and (3) the AIRS temperature and humidity retrieval products can adjust the model initial field, and thus can improve the capacity of snowfall simulation to some extent.     

Validation of the Atmospheric Infrared Sounder Retrieval Products over China and Their Application in Numerical Mode

The atmospheric infrared sounder (AIRS) instrument onboard Aqua Satellite is a high spectral resolution infrared sounder. In recent years, AIRS has gradually become the primary method of atmospheric vertical observations. To examine the validation of AIRS retrieval products (V3.0) over China, the AIRS surface air temperature retrievals were compared with the ground observations obtained from 540 meteorological stations in July 2004 and January 2005, respectively. The sources of errors were considerably discussed. Based on the error analysis, the AIRS retrieved surface air temperature products were systemically corrected. Moreover, the AIRS temperature and humidity profile retrievals were compared with T213 numerical forecasting products. Because T213 forecasting products are not the actual atmospheric states,to further verify the validation, the AIRS temperature and humidity profile products were assimilated into the MM5 model through the analysis nudging. In this paper, the case on February 14, 2005 in North China was simulated in detail. Then, we investigated the effects of AIRS retrievals on snowfall, humidity field,vertical velocity field, divergence field, and cloud microphysical processes. The major results are: (1) the errors of AIRS retrieved surface air temperature products are largely systematic deviations, for which the influences of terrain altitude and surface types are the major reasons; (2) the differences between the AIRS atmospheric profile retrievals and T213 numerical prediction products in temperature are generally less than 2 K, the differences in relative humidity are generally less than 25%; and (3) the AIRS temperature and humidity retrieval products can adjust the model initial field, and thus can improve the capacity of snowfall simulation to some extent.     

克州地区春季一次强风沙天气成因分析

利用常规观测资料、数值预报物理量场和NCEP/NCAR每日4次全球再分析网格点资料,对2010年03月28日发生在克州境内的一场罕见大风、沙尘暴天气过程进行了诊断分析,探讨了这次强风沙天气的成因,结果表明：高空低压槽和地面冷锋及锋后强冷平流、高空急流的加强及高空形成的次级环流使高空动量有效下传到地面起到了积极的动能作用,大风沙尘上空螺旋度上负下正的垂直分布与大风沙尘的出现有很好的对应关系,大风沙尘发生前后压、温、湿要素出现的剧烈突变对预报也有很好的指示意义。     

地基微波辐射计对乌鲁木齐暴雨天气过程的观测分析

MP-3000A是一种新型大气探测仪器,可以连续得到从地面到10km高度上高分辨率的温度、相对湿度、水汽廓线以及液态水廓线。通过选取2011年5月1日的微波辐射计观测数据,分析在降水发生前后的水汽密度和液态水含量的变化,发现大气降水与水汽密度和液态水含量有很紧密的联系。大气中的可降水量一般会维持在25mm,当大气中的可降水量值超过50mm,液态水含量值开始增加的时候,发生降水的可能性增大;降水过后,液态水含量若是没有回落到0.0mm以内,在未来的2～3h内还是会发生降水,因此研究微波辐射计探测的大气水汽密度和液态水含量,将有助于提高短时、临近预报的准确度。