大气冰核谱分布对对流风暴云人工催化影响的数值模拟研究

2002年9月在青海省河南县人工增雨综合试验基地开展了人工增雨外场综合观测试验.根据这次实验得到的大气冰核资料,以及文献给出的另外两组常用的冰核资料,利用中国科学院大气物理研究所研制和发展的三维对流云人工催化数值模式,讨论了3类不同大气冰核谱环境对模拟对流风暴云人工催化增雨效果的影响,模式中还考虑了国内人工影响天气部门常用的RYI-6300型和WR-1B型人工增雨防雹火箭播云弹道的差异.模拟结果表明,3类不同大气冰核谱环境对模拟对流风暴云的宏观和微观参量分布结构有很大影响,在这些对流云中进行火箭播云催化试验得到的播云效果也有很大差异.大气环境中高温冰核浓度低,而低温冰核浓度高时,对流风暴云人工催化将导致云中冰晶过量,不利于对流风暴云降水增加.在大气环境中高温冰核浓度较高,并且低温冰核浓度较低时,对流催化风暴云可获得最高的人工增雨效果.在青海试验区的大气冰核谱环境下,火箭催化对流风暴云增雨有一定效果.对不同地区进行人工增雨作业时,了解清楚当地大气冰核的基本背景状况对于正确地评估播云效果非常重要.文中还给出了导致这些结果差异的物理解释.     

云降水物理和人工影响天气研究进展和思考

云降水物理和人工影响天气密不可分,云降水物理为人工影响天气提供理论基础,人工影响天气是云降水物理一个重要应用领域.目前我国人工影响天气规模、经费投入已达世界之最,人工影响天气工程正在建设之中.论文简要回顾了我国云物理研究和人工影响天气的发展过程,评述研究工作取得的进展,思考我国人工影响天气在新形势下进一步的发展的问题,显得尤为重要.几十年来,我国开展了一系列云雾降水的外场观测研究和人工影响天气的外场试验研究,云和降水物理以及人工影响天气的理论和技术研究不断取得进展,数值云模式和中尺度模式的模拟研究水平有了长足的进步,在云和降水物理过程和降水机制研究、云的微物理结构、云水资源和人工增雨潜力评估、催化条件预测、催化剂和催化技术等方面取得了显著进展.论文最后指出,目前的人工影响天气需要加强人工影响天气核心技术研究,并提出了需要进一步研究的云和降水物理中的有关科学问题.     

“智慧地图”体系构建研究

随着“智慧地球”“智慧城市”的发展,以及人类科学技术和对自然认识水平的提高,传统的空间信息显示与简单的数据存储、管理已不能满足我们对空间认知的需求,空间信息获取的广泛性、时效性、便捷性以及地图服务的智能化与人性化已经成为当前地图行业需求热点.同时,物联网、云计算等新兴信息技术的迅速发展所引爆的第三代信息革命为现代地图学的发展带来了新的契机.本文以地图学历史发展为主线,系统梳理“地图”的相关概念、内涵及技术理论,并结合当前经济、社会及技术背景,重新整合地图的发展需求、内涵及技术体系,提出一种全新的“智慧地图”概念,为现代地图学及数字地图技术的发展提供一种新的视角与理论方法框架.     

基于COSMIC掩星探测资料的云底高反演研究

本文基于相对湿度廓线进入云层时的突变实现云底高反演的思想,采用2008年11月至2009年1月的COSMIC掩星湿空气数据反演全球云底高度,并与探空资料反演结果进行对比分析,得出以下重要结论:(1)当温度－40 ℃相似文献   

Polarimetric scattering model for estimation of above ground biomass of multilayer vegetation using ALOS-PALSAR quad-pol data

Forests are important biomes covering a major part of the vegetation on the Earth, and as such account for seventy percent of the carbon present in living beings. The value of a forest’s above ground biomass (AGB) is considered as an important parameter for the estimation of global carbon content. In the present study, the quad-pol ALOS-PALSAR data was used for the estimation of AGB for the Dudhwa National Park, India. For this purpose, polarimetric decomposition components and an Extended Water Cloud Model (EWCM) were used. The PolSAR data orientation angle shifts were compensated for before the polarimetric decomposition. The scattering components obtained from the polarimetric decomposition were used in the Water Cloud Model (WCM). The WCM was extended for higher order interactions like double bounce scattering. The parameters of the EWCM were retrieved using the field measurements and the decomposition components. Finally, the relationship between the estimated AGB and measured AGB was assessed. The coefficient of determination (R²) and root mean square error (RMSE) were 0.4341 and 119 t/ha respectively.     

基于Citrix XenApp的地震办公平台发布技术研究

随着云技术的发展,即搜即用的全功能App得到了广泛的应用。将这种技术应用到山东省地震局行业网办公环境中,利用Xenapp技术构建了虚拟应用发布系统,以身份认证、权限管理、数据保护、行为监控四个层面为一体的安全部署方案,提高了山东省地震局办公业务系统的高效性和安全性。     

智慧地质建设的初步探讨

智慧地质是充分运用新一代信息技术,发现和总结地质演化的时空规律,判断和预测未来发展趋势,集海量专家认知于一体,认识水平可最大程度的符合或逼近地质自然规律,从而使地质成果以智慧的方式服务于人、造福于人。其意义在于以人为本、服务于人,具体内涵表现为实现地质调查监测工作流程的信息化、地质信息资源互联互通的统一化、地质数据分析应用的智能化、地质成果产品服务的精准化。北京市通过不断创新城市地质工作发展理念、搭建由感知到服务的全流程信息化基础,已经基本具备智慧地质的雏形。智慧地质的建设是一个循序渐进的过程,科学谋划、做好顶层设计、夯实地质理论基础、做好信息平台基础搭建是智慧地质当前发展的首要任务。     

GIS的未来之我见

对当前地理信息系统的发展动态进行了分析,提出了未来GIS的发展呈现出的新特点、云计算GIS的发展趋势以及GIS和人们的生活密切相关.     

Improving the assessment of ICESat water altimetry accuracy accounting for autocorrelation

Given that water resources are scarce and are strained by competing demands, it has become crucial to develop and improve techniques to observe the temporal and spatial variations in the inland water volume. Due to the lack of data and the heterogeneity of water level stations, remote sensing, and especially altimetry from space, appear as complementary techniques for water level monitoring. In addition to spatial resolution and sampling rates in space or time, one of the most relevant criteria for satellite altimetry on inland water is the accuracy of the elevation data. Here, the accuracy of ICESat LIDAR altimetry product is assessed over the Great Lakes in North America. The accuracy assessment method used in this paper emphasizes on autocorrelation in high temporal frequency ICESat measurements. It also considers uncertainties resulting from both in situ lake level reference data. A probabilistic upscaling process was developed. This process is based on several successive ICESat shots averaged in a spatial transect accounting for autocorrelation between successive shots. The method also applies pre-processing of the ICESat data with saturation correction of ICESat waveforms, spatial filtering to avoid measurement disturbance from the land–water transition effects on waveform saturation and data selection to avoid trends in water elevations across space. Initially this paper analyzes 237 collected ICESat transects, consistent with the available hydrometric ground stations for four of the Great Lakes. By adapting a geostatistical framework, a high frequency autocorrelation between successive shot elevation values was observed and then modeled for 45% of the 237 transects. The modeled autocorrelation was therefore used to estimate water elevations at the transect scale and the resulting uncertainty for the 117 transects without trend. This uncertainty was 8 times greater than the usual computed uncertainty, when no temporal correlation is taken into account. This temporal correlation, corresponding to approximately 11 consecutive ICESat shots, could be linked to low transmitted ICESat GLAS energy and to poor weather conditions. Assuming Gaussian uncertainties for both reference data and ICESat data upscaled at the transect scale, we derived GLAS deviations statistics by averaging the results at station and lake scales. An overall bias of −4.6 cm (underestimation) and an overall standard deviation of 11.6 cm were computed for all lakes. Results demonstrated the relevance of taking autocorrelation into account in satellite data uncertainty assesment.     

毫米波测云雷达的系统定标和探测能力研究

毫米波测云雷达是中国自主研制的一部双线偏振全相干8.6 mm波长的测云雷达.本文在介绍该雷达系统的参数和技术特点的同时;重点阐述了厂家用外接仪表对该雷达天线系统、发射机系统以及接收机系统等硬件参数进行测试的方法,检验了雷达回波功率动态范围的定标和测量参数的定标结果;并从理论计算,配合试验区域内另外两部10cm波长的天气...