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复杂流场特征区域模糊描述与提取方法 被引量:4

Fuzzy Description and Extracting Methods of Complex Feature Regions in Flow Fields
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摘要 引入模糊理论对流场特征的描述,提出了一种流场特征区域描述与提取算法.通过采用模糊理论对流场特征区域进行描述,从基本属性Φ、衍生属性?、关联属性Π这3个层次建立了测度规则,然后对各规则分析建立了相应的特征向量,并基于特征向量偏差给出了模糊测度隶属度的确定方法.理论分析表明,该描述与提取算法在最小平方和准则下是对流场区域的最优模糊划分,并具有良好的划分性质.实验结果表明,与传统的提取方法相比,该方法能够更准确地提取各种流场的典型特征区域,既可以有效地支持流场特征强度变化的定量分析,又易于设计转换函数,从而有效地解决3D流场可视化存在的遮挡和混淆问题. This paper presents a method to describe and extract the general feature structures based on the fuzzy theory. This paper first builds some fuzzy measure rules with three levels (the basic property Ф, the derived property γ, and the associated propertyП). With the aid of measure rules, the feature vectors are established for fuzzy membership calculation and the feature region extraction. The analysis demonstrates that this method can obtain the optimal division of the flows on the principle of the minimum square sum. Further, the experiments show that the extent of typical flow structures extracted by this method are more effective than existing methods. In addition, the transfer function can be more flexible in design to avoid the cluttering and occlusion problems, which must be solved when visualizing 3D flows.
作者 徐华勋 李思昆 马千里 蔡勋
机构地区 国防科学技术大学计算机学院
出处 《软件学报》 EI CSCD 北大核心 2011年第8期1960-1972,共13页 Journal of Software
基金 国家自然科学基金(60873120 60773020 60970094) 国家重点基础研究发展计划(973)(G2009CB723803) 国家高技术研究发展计划(863)(2009AA01Z301)
关键词 流场 特征可视化 特征结构 模糊理论 flow fields feature visualization feature structure fuzzy theory
分类号 TP391 [自动化与计算机技术—计算机应用技术]
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参考文献16

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同被引文献39

  • 1陈莉,彭群生.基于分形的流场采样方法[J].计算机学报,1997,20(7):616-622. 被引量:2
  • 2JohnDAnderson.计算流体力学基础及其应用[M].吴颂平,刘赵淼译.北京:机械工业出版社,2009,6.
  • 3R Burger, P Muigg, M Ilcik, H Doleisch, H Hauser. Integrating Local Feature Detectors in the Interactive Visual Analysis of Flow Simulation Data [C]//Proc. EuroVis 2007. Prague, Czech Republic: Eurographics Association, 2007: 171-178.
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  • 6SimVis Inc. SimVis [K]. (2010) [2010]. http://www.simvis.at.
  • 7H Doleisch, M Gasser, H Hauser. Interactive feature specification for focus+context visualization of Complex Simulation Data [C]//Proc. VisSym 2003. Grenoble, France: Eurographics Association, 2003: 239-248.
  • 8M Mlejnek. Feature-based volume rendering of simulation data [R]// Technical Report. Vienna, Austria: VRVis Research Center, 2003.
  • 9W3. XML [K]. (2010) [2010]. http://www.w3.org/XML/.
  • 10M Novotny, H Hauser. Similarity brushing for exploring multidimensional relations [C]//Proc. Of WSCG 2006, Plzen, Czech Republic: Proc. Of WSCG 2006, 2006:105 - 112.

引证文献4

二级引证文献12

软件学报
2011年 第8期

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