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基于过程的海洋地理信息系统研究 总被引:1,自引:0,他引:1
地理信息系统(GIS)作为对蕴涵空间位置信息的数据进行采集、存储、管理、分发、分析、显示和应用的支撑技术,日益显示其对海洋研究的重要性.但传统的GIS主要以静态方式完成对地理空间“状态”的描述、操作和分析,而海洋永远处于不断变化中,需要处理的是海洋动态现象.要完整地表达和分析海洋动态现象的特征与变化规律,必须使地理信息系统具备对海洋动态过程的管理、处理和分析能力,亦即海洋地理信息系统(MGIS)需要将“过程”纳入其研究范围.为此,以过程处理为核心,发展海洋地理信息系统对时空信息处理的能力,充分利用多维信息可视化和组件化技术,开发了三层体系结构的大吞吐量开放式的海洋地理信息系统Maxplore.简要介绍了系统开发的关键技术与特色模块,包括海洋用户需求分析、MGIS的定位与总体设计、多源数据管理、栅格数据处理、海洋形态特征分析、多维时空动态、综合分析环境和海洋模型集成平台. 相似文献
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海洋将成为21世纪国际竞争和开发的重点领域,海洋地理信息系统(Marine Geographic Information System)作为海洋产业建设和其他海事活动辅助决策的工具,得以快速发展和广泛应用。在总结我国MGIS的发展历程、应用领域的基础上,对其发展前景做了简单的评述。 相似文献
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海洋地理信息系统(MGIS)研究进展 总被引:5,自引:1,他引:5
海洋占全球面积的71%,21世纪是海洋开发的时候,其中海岸带及近海为开发利用的重点,海洋产业部门、沿海国家的各级政府及军事部门均需要快速获得有关海洋环境的综合信息和行为的决策依据。最近国际上出现的海洋地理信息系统(MGIS)已成为发展“数字海洋”的核心,通过MGIS的内涵基本功能,决策支持系统及应用实例介绍MGIS的应用前景。 相似文献
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一个基于TOPEX卫星极端海面风速预测的海洋地理信息系统 总被引:4,自引:1,他引:4
在基于 TOPEX卫星数据建立全球极端海面风速预测模型的基础上 ,开发出用于极端海面风速预测和可视化预测结果的海洋地理信息系统 (MGIS)。并论述全球极端海面风速预测的意义和 MGIS在预测过程中的重要性及必要性 ;给出全球极端海面风速预测的统计模型 ;简述极端海面风速预测海洋地理信息系统的结构、工作流程和功能 ;同时 ,对系统的预测结果进行初步分析 相似文献
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地理信息系统的发展及其在海洋领域中的应用 总被引:10,自引:0,他引:10
系统介绍了海洋地理信息系统(MGIS)的特点、成果和发展趋势,它使海洋信息数据的建库和管理向科学化、可视化、便捷化方向发展。海底蕴藏着丰富的矿产资源,而海岸带聚集着地球上大部分的人口和城市。因此,“数字海底”和“海岸带”研究是当前MGIS研究的切入点。 相似文献
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RS与GIS在海洋地质调查中的应用 总被引:2,自引:0,他引:2
近几十年来,海洋的重要性愈来愈明显,海洋地质调查作为获取海洋数据的重要手段逐渐受到关注。海洋数据与陆地数据相比,具有多样性和时空复杂性的特点。近年来遥感技术和地理信息系统技术发展迅速,遥感的实时性、大面积监测性的特点以及地理信息系统对空间数据的有序管理及支持辅助决策的功能为海洋地质调查开辟了新的前景。笔者结合遥感和地理信息系统的特点、发展趋势,介绍了其在海洋地质调查领域中的应用,并对其应用前景做出展望。 相似文献
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1 IntroductionThe21stcenturyistheocean century. Thegreatvolum e ofmulti-source data in oceanography ischal-lenging to the storage, m anagem ent, m aintenance,quick access,intelligentanalysis,visualization and au-to-m apping ofthe m arine inform ation. Asa… 相似文献
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A. George Mourad 《Marine Geodesy》2013,36(4):293-313
Abstract Geographic Information Systems (GIS) have been developed during the last decade. Their land‐based applications range from land information management, urban planning, and environmental research to engineering design and management in the utility and oil industries, geological subsurface analysis, and others. However, applications of GIS in the marine environment are still in the initial stages. This may be due to, among other things, the large marine data sets, the demands of 3D data processing, and the difficulty of ocean data acquisition. This article presents the result of the development of an integrated Marine Geographic Information System (MGIS) for the exploration and development of the Exclusive Economic Zone (EEZ) in the U.S. Pacific Islands region by the Pacific Mapping Center, University of Hawaii. Features such as spatial marine data processing, integration of GIS and mapping systems, 3D data structures, and simulation and animation of marine operations are developed and applied in this system. Since MGIS applications in EEZ are related to many disciplines in marine sciences and engineering, an operational MGIS should be an integrated system in which both basic GIS and marine application systems are combined into a single geo‐referenced system, In addition to other applications, this MGIS has been used: (1) to select a potential deep‐water research site off the island of Hawaii for the State of Hawaii Department of Business, Economic, and Development (DBED); (2) to generate a three‐dimensional database and use it for the navigation and simulation of underwater operations of an underwater research vehicle; and (3) to produce two 2° × 2° mosaic sheets of sonar images, which meet the USGS standard for a sonar image atlas. 相似文献
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Constructing a raster-based spatio-temporal hierarchical data model for marine fisheries application
1 Introduction The GIS has shown great success for terrestrial ap- plicationsin the last decades, but its use in marine fields has been far more restricted. One of the main reasons is that most of the GIS systems or their data models are designed for land… 相似文献
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随着现代海洋观测技术的发展,通过海岸海洋地貌调查获得的数据急剧增长。运用地理信息系统(GIS)将不同学科、不同来源、不同格式的数据进行集成管理、分析和表达已成为当前海岸海洋地貌研究的重点。系统介绍了GIS技术在海岸海洋地貌研究中新的方法体系,包括数据获取、数据处理、数据分析和数据表达四个部分,重点研究了GIS空间技术、海底地形建模和用三维可视化技术解译海洋地学,探索陆海交互作用中隐含信息的方法,并将其应用到沿海城市规划、海港选址、大陆架岛礁地貌环境研究的具体实例中,研究范围从陆到海涵盖整个海陆交互作用带,为海岸海洋社会发展、经济建设及外交权益提供科学基础和决策支持。通过上述方法体系与应用研究说明,以GIS为核心建立的多源地理空间信息平台使传统海岸海洋地貌研究的范围、内容及方法都发生了重大变化,但多源数据信息的精确解译和成功应用必须同时具有空间信息学和地貌学专家知识。 相似文献
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It is urgent and necessary to integrate a marine geographical information system (MGIS) with marine remote sensing detection modules. On the basis of the current technology and features of applications, an open three-layer integration framework is designed. At the data layer, a two-level three-base integration mechanism based on the plug-in technology is applied; At the function layer, an integration mode based on API, DLL, EXE and COM is discussed; and at the application layer, a sharing mechanism based on the clients/service is adopted. As an example, the remote sensing integrated application information system of China's coastal zone and offshore (MaXplorer1. 0) with muhiecology remote sensing fusion and assimilation module, surge detection module as well as eight other thematic application modules is integrated, and the key technology of integration is discussed at different layers and in different modules. The result shows that it is possible to realize the conformity of technology and resources and to provide the incorporate technology platform for marine information operational functioning after applying the integration framework. 相似文献
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John F. Paul Jane L. Copeland Michael Charpentier Peter V. August Jeffrey W. Hollister 《Marine Geodesy》2013,36(1-2):63-72
Geographic information systems (GIS) tools are now considered integral in estuarine monitoring and assessment research. A synopsis is presented of our estuarine applications of GIS in the Northeast region of the U.S. The applications discussed cover sample site selection, support for field sampling activities, quality assurance of data, spatial display of geographic referenced information, quantitative spatial analysis of data, and communication of results. 相似文献