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基于自适应四叉树的地形简化 被引量:2

Method for Terrain Model Simplification Based on Adaptive Quadtree
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摘要 针对当前地形三维可视化技术的研究现状,在吸取计算机图形学、虚拟现实、地理信息学、现代数学的先进理论和技术成果的基础上,根据地形表面平坦程度不同对原始地形模型预简化,对表面较平坦的区域不再分层,将原始地形模型的完全四叉树结构改变成自适应四叉树结构,从而生成自适应四叉树结构的地形模型,并采用VC++结合OpenGL加以实现。 The paper base on the present situation of three-dimension terrain visualization technology research, on absorbing the advanced theories and the technique result about computer graphics, virtual reality, geographical information, modern mathematic etc. This study is about complicated terrain model simplification, simplified the original geography model in advance according to flatness degree of the topography. For more flat district, surface is no longer layering. Changed the original geography models complete quadtree structure into adaptive quadtree structure. Thus the geography model of the adaptive quadtree structure was built. While, VC^++ combine OpenGL were used to achieve them.
作者 官学文 马耀昌
机构地区 长江水利委员会长江上游水文水资源勘测局
出处 《地理空间信息》 2008年第1期65-68,共4页 Geospatial Information
关键词 地形模型 自适应四又树 模型简化 OPENGL terrain model adaptive quadtree model simplification OpenGL
分类号 P217 [天文地球—测绘科学与技术]
  • 相关文献

参考文献7

  • 1[1]Duchaneau M,Wolinsky M,Sigeti D E,et al.Roaming Terrain:Real-time Optimally Adapting Meshes[C].//IEEE.Proceedings of IEEE Visualization'97,phoenix,1997
  • 2[2]Lindstrom P.Koller D,Ribarsky W et al.Real-time.Continuous Level of Detail Rendering of Height Fields[C].Proceedings of SIGGRAPH'96,New Orleans,1996
  • 3[3]Lindstrom P.Pascucei V.Visualization of Large Terrains MadeEasy[C].//IEEE.Proceedings of IEEE Visualization'2001,San Diego,2001
  • 4[4]Lindstrom P,Pascucci V.Terrain Simplification Simplified:A General Framework for View-dependent Out-of-core Visualization[J].IEEE Transactions on Visualization and Computer Graphics,2002,8(3):239-254
  • 5彭仪普,刘文熙.一种动态交互的多分辨率地形生成[J].计算机工程,2003,29(11):32-33. 被引量:2
  • 6彭仪普,詹文华.基于自适应四叉树的实时动态地形生成[J].西南交通大学学报,2002,37(6):632-636. 被引量:4
  • 7[7]马耀昌.重庆市主城区河段河道水下三维地形可视化[R].南京:河海大学工程硕士论文,2007

二级参考文献12

  • 1[1]De Floriant L, Puppo E. Hierarchical triangulation for multiresolution surface description[J]. ACM Transactions on Graphics, 1995;14(3): 31-36.
  • 2[2]Scarlatos L L. Refined triangulation hierarchy for multiple levels of terrain detail[A].Proc. of Image V Conference[C]. san Francisco, Califormia,1990: 114-122.
  • 3[3]Clignoni P, Puppo E, Scopingno R. Representation and visualization of terrain surfzces at variable resolution[J]. The Visual Computer,1997;13(5): 199-217.
  • 4[4]Hoppe H. Smooth view-dependent level-of-detail control and its application to terrain rendering[A]. IEEE Visualization97 proceedings[C],1998,October 1998: 35-42.
  • 5[5]Lindstrom P, Koller D. Real-time continue level of detail rendering of height fields[A]. Computer Graphics(SIGGRAPH96 Proceedings)[C],1996: 109-118.
  • 6[6]Duchaineauy M, Wolinsky M. Roaming Terrain:Real-time optimally adapting meashes[A]. IEEE Visualization97 proceedings[C],1997: 81-88.
  • 7[7]Rottger S, Heidrich W, Slasallek P, Peter H. Real-Time generation of contiues levels of detail for height fields[A]. Winter School in Computer Graphics(WSCG Proceedings)98[C],1998: 45-50.
  • 8Floriant L D, Puppo E. Hierarchical Triangulation for Multiresolution Surface Description[J]. ACM Transactions on Graphics, 1995,14(3):31.
  • 9Scarlatos L L. Refined Triangulation Hierarchy for Multiple Levels of Terrain Detail[J]. IMAGE V Conference, San Francisco, Califormia, 1990:114-122.
  • 10Duchaineauy M, Wolinsky M. Roaming Terrain:Real-time Optimally Adapting Meashes[J]. IEEE Visualization97 Proceedings, 1997:81-88.

共引文献4

同被引文献13

引证文献2

二级引证文献7

地理空间信息
2008年 第1期

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