正二十面体全球剖分模型的Geometry Clipmap球面绘制

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[1]陈梦云,孟新,彭晓东.正二十面体全球剖分模型的Geometry Clipmap球面绘制[J].遥感学报,2014,18(05):1059-1071.

CHEN Mengyun, MENG Xin, PENG Xiaodong. Method of Geometry Clipmap based on icosahedron[J]. Journal of Remote Sensing, 2014,18(5):1059-1071.
[1]陈梦云,孟新,彭晓东.正二十面体全球剖分模型的Geometry Clipmap球面绘制[J].遥感学报,2014,18(05):1059-1071. DOI： 10.11834/jrs.20143141.

CHEN Mengyun, MENG Xin, PENG Xiaodong. Method of Geometry Clipmap based on icosahedron[J]. Journal of Remote Sensing, 2014,18(5):1059-1071. DOI： 10.11834/jrs.20143141.

地形绘制一直是图形学研究的热点问题

尤其是球面地形绘制

其在形状和数据组织方面比平面地形绘制更加复杂。在已有球面地形绘制算法的基础上

提出一种基于Geometry Clipmap的球面地形剖分与绘制方法。该方法以构建正二十面体球面网格为基础

将正二十面体划分为十个菱形区域

采用球面菱形网格的剖分

针对每个菱形区域的周边网格进行重新剖分和组合

形成一个虚拟的3×3的大菱形区域

扩大了Clipmap的活动范围

并在一定程度上解决了Clipmap的跨边界问题。实验结果表明了本文方法的可行性和有效性。

Large terrain rendering is hotspot in Computer Graphics

especially the spherical terrain rendering

which is more complicated in shape and data organization. Based on researching in spherical terrain rendering method

we propose a new spherical terrain rendering method using Geometry Clipmap. First construct an icosahedron model

and then split the icosahedron into ten main diamonds

and use spherical Sphere Quad Trees（ SQT） model to ensure G eometry Clipmap can be used in every diamond

what else

grids around the main diamond are partitioned and c omposed to a bigger virtual diamond terrain in 3 × 3 size

which enlarge clipmaps’ extent and solve the boundary crossing problem to a extent

and the Geometry Clipmap can be used in the big diamond. The result illustrates feasibility and effectivity of the method.

球面地形绘制Geometry Clipmap正二十面体全球剖分球面三角四叉树剖分模型

spherical terrain renderingGeometry ClipmapicosahedronsSphere Quad Trees（SQT）

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