摘要
构建真三维的地层模型是地质学、三维GIS、科学可视化及工程应用领域共同关心的课题。在总结当前的三维地层建模理论与方法的基础上,提出了地层的真三维四面体模型。该模型将地层钻孔数据离散为点源性息,采用Delaunay四面体化算法构建三维地层,并对地层尖灭、断层等突变信息的处理进行了探讨。最后给出了该方法在典型地层和工程应用中的实例。该模型体现了TEN便于存储、快速可视化等优点,建模方法则充分利用计算机。
The true three-dimensional strata modeling is a common issue for geology, three-dimensional GIS, scientific visualization and engineering application. After introducing and summarizing the theory and method of three-dimensional geology modeling, a true three-dimensional tetrahedron network(TEN) model of strata is proposed. The model represents three-dimensional stratum with a series of tetrahedrons, which can provide the best flexibility to fill regions defined by simplified boundary elements(i.e., edges in two-dimensional, triangle in three-dimensional). Geological exploration hole is the main information for engineers to know the soil strata. Geological exploration hole are abstracted as scattered point data. Each point is the demarcation point between two different strata and a topologic dimidiate datum structure is designed. Based on these scattered points abstracted from geological exploration hole information, the three-dimensional TEN stratum model is reconstructed by Delaunay triangulation algorithm. The modeling method can disposal broken mutation such as failure and dwindle. At last, some assumed classic strata and strata of a practice project are constructed by the method. The model has the advantage of convenient for storing and fast visualization. The characteristic of construction method is taking advantage of computer more effectively. Because the model strata are represented by tetrahedron, the strata model can also be used as the FEM mesh and convenient for special analysis, such as settlement or seepage of soil.
出处
《岩石力学与工程学报》
EI
CAS
CSCD
北大核心
2005年第24期4581-4587,共7页
Chinese Journal of Rock Mechanics and Engineering
基金
教育部第四届高等学校教师奖励计划
上海市岩土工程重点学科资助
