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排序方式: 共有925条查询结果,搜索用时 25 毫秒
91.
Internet GIS空间数据通讯的部件化构造方法 总被引:4,自引:0,他引:4
在分析分布式地理信息特征的基础上,提出了满足分布式地理信息获取与处理的InterntGIS的要求。针对InternetGIS的浏览器/多服务器体系,结合部件化概念,定义了测览器端与多服务器端数据请求与获取部件的数据结构,解决了分布式地理信息查询的问题。最后用一个应用系统实例加以说明。 相似文献
92.
分布式遥感图像处理中的若干关键技术 总被引:2,自引:0,他引:2
分析和探讨了分布式遥感图像处理中的主要研究问题和若干关键技术,包括分布式处理模型、支撑环境、网络环境下的遥感数据存储管理、分布式并行处理中数据划分、功能分解以及负载平衡与任务分配等。 相似文献
93.
中国西部大尺度流域建立分带式融雪径流模拟模型 总被引:16,自引:6,他引:10
针对中国西部大尺度流域利用遥感信息进行的融雪径流模拟模型建立过程,提供以数字地形因子分析为手段的分区,分带方法。在NOAA/AVHRR卫星云图为主要监测信息源的前提下,应用支持软件,解决了图像纠正,图形转为图像后再与图像匹配等问题。同时,根据研究得出雪象元之阈值,使用监督分类的训练样本方法统计出流域内雪盖面积及各带的雪盖面积百分比。作为应用和检验,对黄河上游的曲什安流域进行样本操作,分3个垂直带各 相似文献
94.
Pabitra Gurung 《水文科学杂志》2017,62(1):114-123
This study is about use of spatially distributed rain in physically based hydrological models. In recent years, spatially distributed radar rainfall data have become available. The distributed radar rain is used to precisely model hydrologic processes and it is more realistic than the past practice of distribution methods like Thiessen polygons. Radar provides a highly accurate spatial distribution of rainfall and greatly improves the basin average rainfall estimates. However, quantification of the exact amount of rainfall from radar observation is relatively difficult. Thus, the fundamental idea of this study is to apply hourly gauge and radar rainfall data in a distributed hydrological model to simulate hydrological parameters. Hence the comparison is made between the outcomes of the WetSpa model from radar rainfall distribution and gauge rainfall distributed by the Thiessen polygon technique. The comparative plots of the hydrograph and the results of hydrological components such as evapotranspiration, surface runoff, soil moisture, recharge and interflow, reflect the spatially distributed radar input performing well for model outflow simulation.
EDITOR D. KoutsoyiannisASSOCIATE EDITOR F. Pappenberger 相似文献
95.
To facilitate precise and cost-effective watershed management, a simple yet spatially and temporally distributed hydrological model (DHM-WM) was developed. The DHM-WM is based on the Mishra-Singh version of the curve number method, with several modifications: The spatial distribution of soil moisture was considered in moisture updating; the travel time of surface runoff was calculated on a grid cell basis for routing; a simple tile flow module was included as an option. The DHM-WM was tested on a tile-drained agricultural watershed in Indiana, USA. The model with the tile flow module performed well in the study area, providing a balanced water budget and reasonable flow partitioning. The daily coefficient of determination and Nash-Sutcliffe coefficient were 0.58 and 0.56, for the calibration period, and 0.63 and 0.62 for the validation period. The DHM-WM also provides detailed information about the source areas of flow components, the travel time and pathways of surface runoff.
EDITOR A. Castellarin; ASSOCIATE EDITOR F.-J. Chang 相似文献
96.
提出了一种新的以层状半空间中周期分布斜线荷载动力格林函数为基本解的间接边界元方法,研究了周期分布凸起地形对平面SH波的散射问题.方法将散射波场分解为凸起内部散射波场和凸起外部散射波场.凸起内部散射波场通过在凸起闭合边界上施加虚拟斜线荷载产生的动力响应来模拟,而凸起外部散射波场则通过在凸起与半空间交界面上施加虚拟周期分布斜线荷载产生的动力响应来模拟.周期分布斜线荷载动力格林函数的引入,使得本文方法仅需针对一个凸起进行边界单元的离散和求解,便可完成问题的求解,避免了通过截断无限边界求解而引入的误差,方法具有较高精度的同时显著降低了求解自由度.文中通过与已有结果的比较,验证了方法的正确性,并以均匀半空间和基岩上单一土层中周期分布凸起为例进行了数值计算分析.研究表明,凸起间距对凸起地形间的动力相互作用有着显著的影响,同时层状半空间中周期分布凸起地形对SH波的散射与均匀半空间情况也有着显著的差别. 相似文献
97.
A process‐based, spatially distributed hydrological model was developed to quantitatively simulate the energy and mass transfer processes and their interactions within arctic regions (arctic hydrological and thermal model, ARHYTHM). The model first determines the flow direction in each element, the channel drainage network and the drainage area based upon the digital elevation data. Then it simulates various physical processes: including snow ablation, subsurface flow, overland flow and channel flow routing, soil thawing and evapotranspiration. The kinematic wave method is used for conducting overland flow and channel flow routing. The subsurface flow is simulated using the Darcian approach. The energy balance scheme was the primary approach used in energy‐related process simulations (snowmelt and evapotranspiration), although there are options to model snowmelt by the degree‐day method and evapotranspiration by the Priestley–Taylor equation. This hydrological model simulates the dynamic interactions of each of these processes and can predict spatially distributed snowmelt, soil moisture and evapotranspiration over a watershed at each time step as well as discharge in any specified channel(s). The model was applied to Imnavait watershed (about 2·2 km2) and the Upper Kuparuk River basin (about 146 km2) in northern Alaska. Simulated results of spatially distributed soil moisture content, discharge at gauging stations, snowpack ablations curves and other results yield reasonable agreement, both spatially and temporally, with available data sets such as SAR imagery‐generated soil moisture data and field measurements of snowpack ablation, and discharge data at selected points. The initial timing of simulated discharge does not compare well with the measured data during snowmelt periods mainly because the effect of snow damming on runoff was not considered in the model. Results from the application of this model demonstrate that spatially distributed models have the potential for improving our understanding of hydrology for certain settings. Finally, a critical component that led to the performance of this modelling is the coupling of the mass and energy processes. Copyright © 2000 John Wiley & Sons, Ltd. 相似文献
98.
为探究埋入式光纤与隧道衬砌的耦合性能,分别从理论与试验两个方面进行研究,并在实际工程中进行了验证。构建了光纤、中间体和基体结构力学分析模型,进行光纤应变传递机制理论分析,计算了光纤应变传递效率;使用钢筋混凝土梁模拟隧道衬砌,进行了2组不同加载速率的试验。其中,在同一根梁内(同一工况)设计6种光纤的布设方式,以位移控制的方式在梁跨中部位进行单点多级加载,使用BOFDA(布里渊散射光频域分析)技术分别对6条光纤进行监测。试验结果表明:6条光纤均可以有效监测梁从开始加载至钢筋开始屈服阶段,光纤与梁耦合性最好;钢筋开始屈服直至梁破坏阶段,光纤应变不再增加甚至减小或呈现出光纤断裂的状态,此过程光纤与梁耦合性较差;除开槽埋入式光纤的有效监测应变差为3 000×10?6外,其余布设方式光纤有效监测应变差为2 000×10?6;光纤在长距离(>>146 mm)埋入式布设情况下可认为其应变传递效率接近100%,2组不同试验结果呈现相似规律。在北京市新机场线地铁暗挖隧道CRD工法区间进行了工程应用研究,监测结果表明分布埋入式光纤布设工艺是可行的,可为分布式光纤技术在地下工程结构监测中的应用提供有价值的参考。 相似文献
99.
100.
Mathematical models are being used to develop a decision support system for integrated management of the Ythan catchment in NE Scotland. One component of this has involved the development of a distributed catchment-scale hydrological model. The model is based on subsurface flow routing and calculates the contribution to stream flow from each 50 m×50 m cell in the 548 km2 catchment. It uses two topographic parameters, slope and distance to stream following the main line of flow, and five physical parameters. The topographic analysis and distributed flow accumulation are performed by linking the single cell model with a geographic information system. Preliminary results from a three-year simulation of daily flows indicate that the model successfully predicts the main characteristics of the catchment flow. © 1998 John Wiley & Sons, Ltd. 相似文献