期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

从外存中计算地形可视域的高效算法 被引量:2

Efficient viewshed computation on terrain in external memory
下载PDF
导出
摘要 可视性分析广泛应用于GIS的各个方面,视线和视域是其最基本的两个因子。视域的计算方法有很多种,在计算时因为采用的算法和实现算法所运用的编程方法不同,导致效率和精度有很大差异。为了解决由内存受限而无法存储和处理海量区域地理信息数据的问题,提出一种在外部存储器上计算地形视域的高效算法,对该算法进行了分析,并进行了实验验证,表明该算法明显优于现有的其他算法。 Visibility analysis has been widely used in GIS applications. Viewshed and LOS are its two elementary factors. There have been many methods for viewshed computing using different algorithms and programming techniques, which lead to big differences in consumed time and accuracy. In order to solve the problem that due to the memory limit massive terrain data are unable to be stored and processed, this paper presents an efficient algorithm to compute viewshed on terrain stored in external memory. Through the analysis of the algorithm and the experimental verification, it shows that the algo-rithm is superior to other existing algorithms.
作者 吴超辉 张涵斐 公茂玉
机构地区 信息工程大学测绘学院 中国人民解放军
出处 《计算机工程与应用》 CSCD 2014年第12期48-53,共6页 Computer Engineering and Applications
基金 国家自然科学基金(No.41071297)
关键词 地理信息系统(GIS) 地形模型 外部存储处理 视域 可视性地图 Geographic Information System(G1S) terrain model external memory processing viewshed visual map
分类号 P208 [天文地球—地图制图学与地理信息工程]
  • 相关文献

参考文献12

  • 1Arge L, Vengroff D E, Vitter J S.External-rnemory algo- rithms for processing line segments in geographic infor- mation systems[J].Algorithmica, 2007,47( 1 ) : 1-25.
  • 2杜剑侠,战守义,李凤霞.一种基于外存的地形实时绘制方法[J].计算机工程,2007,33(6):219-221. 被引量:1
  • 3Ben-Moshe B,Katz M J,Mitchell J S B.A constant-tac- tor approximation algorithm for optimal 1.5d terrain guard- ing[J].SIAM J Compute,2007,36(6) z 1631-1647.
  • 4Franklin W R,Ray C.Higher isn't necessarily better vis- ibility algorithms and experiments[C]//6th Symposium on Spatial Data Handling, Scotland, 1994 : 751-770.
  • 5Stewart A J.Fast horizon computation at all points of a terrain Trans 82-93. with visibility and shading applications[J].IEEE on Visualization and Computer Graphics, 1998,4.
  • 6Kreveld M V.Variations on sweep algorithms:efficient com- putation of extended viewsheds and class intervals[C]// Symposium on Spatial Data Handling, 1996: 15-27.
  • 7Young-Hoon K,Rana S,Wise S.Exploring multiple view- shed analysis using terrain features and optimization tech- niques[J].Computers and Geosciences, 2004,30 : 1019-1023.
  • 8Ben-Moshe B, Carmi P, Katz M J.Approximating the visi- ble region of a point on a terrain[C]//Proc Algorithm Engineering and Experiments, 2004 : 120-128.
  • 9Arge L,Chase J S,Halpin P,et al.Efficient flow compu- tation on massive grid terrains[J].Geolnformatica,2003,7 (2) :283-313.
  • 10Camp R J ,Sinton D T,Knight R L.Viewsheds:a com- plementary management approach to buffer zones[J].Wild- life Society Bulletin, 1997,25 : 612-615.

二级参考文献9

  • 1Matias Y,Segal E,Vitter J S.Efficient Bundle Sorting[C]// Proceedings of the 11th Annual SIAM/ACM Symposium on Discrete Algorithms,San Francisco,California.2000:839-848.
  • 2Arge L,Miltersen P B.On Showing Lower Bounds for External-memory Computational Geometry Problems[M]//Abello J,Vitter J S.External Memory Algorithms and Visualization.Providence,Rhode Island:American Mathematical Society Press,1999.
  • 3Goodrich M T,Tsay J J,Vengroff D E,et al.External Memory Computational Geometry[C]//Proceedings of the 34th Annual IEEE Symposium on Foundations of Computer Science,Palo Alto,California.1993.
  • 4Chiang Y J,Silva C T.I/O Optimal ISO Surface Extraction[C]//Yagel R,Hagen H.Proc.of IEEE Visualization'97,Phoenix,Arizona.1997:293-300.
  • 5Bajaj C L,Pascucci V,Thompson D,et al.Parallel Accelerated ISO Contouring for Out-of-core Visualization[C]//Spencer S N.Proc.of the IEEE Parallel Visualization and Graphics Symposium on ACM SIGGRAPH.1999:97-104.
  • 6Hoppe H.Progressive Meshes[C]//Proceedings of SIGGRAPH '96 on Computer Graphics.1996:99-108.
  • 7Hoppe H.View-dependent Refinement of Progressive Meshes[C]// Proc.of SIGGRAPH'97.1997:189-198.
  • 8Xia J C,Varshney A.Dynamic View-dependent Simplification for Polygonal Models[C]//Proc.of Visualization'96.1996:327-334.
  • 9Vitter J S.External Memory Algorithms and Data Structures:Dealing with Massive Data[J].ACM Computing Surveys,2001,33(2):209-271.

同被引文献25

  • 1Kang H Y,Jang H,Cho C S,et al.Multi-resolution terrainrendering with GPU tessellation[J].The Visual Computer,2014,4(31):455-469.
  • 2Lindstrom P,Cohen J D.On-the-fly decompression andrendering of multi-resolution terrain[C]//Proceedings ofthe 2010 ACM SIGGRAPH Symposium on Interactive3D Graphics and Games,2010:65-73.
  • 3Asirvatham A,Hoppe H.Terrain rendering using GPU basedgeometry clipmaps[J].GPU Gems,2005,2(2):27-45.
  • 4Lindstrom P,Pascucci V.Terrain simplification simplified:a general framework for view-dependent out-of-core visualization[J].IEEE Transactions on Visualization and ComputerGraphics,2002,8(3):239-254.
  • 5M.Bader.Two motivating examples:sequential orders onquadtrees and multidimensional data structures[M]//Spacefillingcurves.Berlin/Heidelberg:Springer,2013:1-14.
  • 6Je-owicz T,Gajdo- P,Ochodková E,et al.A new iterativeapproach for finding nearest neighbors using space-fillingcurves for fast graphs visualization[J].International JointConference SOCO’14-CISIS’14-ICEUTE’14,Bilbao,Spain,2014:11-20.
  • 7Yang Ying,Wang Chunfang,Gao Yuyu,et al.Large scaleterrain real-time rendering on GPU using double layerstile quad tree and cuboids bounding error metric[J].The Open Automation and Control Systems Journal,2014,6:1378-1388.
  • 8Warren H S.高效程序的奥秘[M].冯速,译.北京:机械工业出版社,2004.
  • 9杨莹,李雪,杨蕊.矩形二叉树实现海量地形数据组织与管理[J].计算机工程与应用,2009,45(20):169-172. 被引量:5
  • 10邱航,陈雷霆,蔡洪斌.复杂环境影响下雷达探测范围三维可视化[J].电子科技大学学报,2010,39(5):731-736. 被引量:26

引证文献2

二级引证文献5

计算机工程与应用
2014年 第12期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部