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This article introduces the most advanced form of electronic chart display and information systems (ECDIS) which complies with the performance standards for ECDIS established by the International Maritime Organization (IMO) and International Hydrographic Organization (IHO). It also describes the key features and the important functions of ECDIS, which we developed. This system is different from the productions developed by C-map, Seven-cs, offshore, and others. It is more suitable for China Marine Safety Administration Bureau to manage the navigation marks real-time. Using this system charts were located and accessed rapidly, and displayed smoothly. This article also discusses in ECDIS application system how to dynamically access and desert charts data in a limited memory (limited computer memory and resource). We constructed a tridimensional structure to manage a large amount of charts data. Vertically, according to the scale range, all charts were divided into eight levels, and a data structure called as “Multiple Scale Quad-tree” was constructed. And horizontally, a grid (every unit has a fixed size) was given to a certain scale level. We call this data structure a “Regular Page.” We explore the implementation of such a structure on the worldwide charts management utilizing quad-trees. Then we discuss the future development of ECDIS and its application system in marine agencies in China. 相似文献
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ENC作为一种独特的地理空间信息产品,广泛应用于ECDIS(电子海图显示与信息系统)。由于多方面原因,海员在ECDIS使用过程中可发现ENC中存在一些不一致性现象,不仅影响了ENC的数据质量和可信度,而且容易使海员对海上地理要素产生混淆和误判,最终影响船舶海上航行安全。由于海图编绘资料的多源性以及以单幅数据进行生产的作业模式,数据生产者在数据质量评价时都将关注点放在单幅数据的检校,却忽视了数据之间的不一致问题。为此,对各类不一致问题进行梳理分类,按照出现位置不同,将不一致问题分为"ENC内部不一致性"、"邻接ENC之间不一致性"和"重叠ENC之间不一致性"等3大类,分别进行了原因分析和示例说明,最后给出了解决ENC不一致性的途径,为ENC不一致问题的进一步研究指明了方向。 相似文献
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海上电子高速公路技术在马六甲海峡的应用 总被引:2,自引:0,他引:2
介绍了海上电子高速公路产生的背景、概念、功能以及组成结构,指出海上电子高速公路,也就是网络化的电子海图在航海中应用的发展。电子海图显示与信息系统(ECDIS)是组成海上电子高速公路的基础,精确航行是它的中枢部分。并以马六甲海峡为例介绍了海上电子高速公路在航行安全及环境保护方面的广泛应用,对这一研究领域在我国的发展前景作了展望。 相似文献
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This article introduces the most advanced form of electronic chart display and information systems (ECDIS) which complies with the performance standards for ECDIS established by the International Maritime Organization (IMO) and International Hydrographic Organization (IHO). It also describes the key features and the important functions of ECDIS, which we developed. This system is different from the productions developed by C-map, Seven-cs, offshore, and others. It is more suitable for China Marine Safety Administration Bureau to manage the navigation marks real-time. Using this system charts were located and accessed rapidly, and displayed smoothly. This article also discusses in ECDIS application system how to dynamically access and desert charts data in a limited memory (limited computer memory and resource). We constructed a tridimensional structure to manage a large amount of charts data. Vertically, according to the scale range, all charts were divided into eight levels, and a data structure called as “Multiple Scale Quad-tree” was constructed. And horizontally, a grid (every unit has a fixed size) was given to a certain scale level. We call this data structure a “Regular Page.” We explore the implementation of such a structure on the worldwide charts management utilizing quad-trees. Then we discuss the future development of ECDIS and its application system in marine agencies in China. 相似文献