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引用次数: 2
摘要
提出了一种考虑巷道地质特征的煤矿巷道三维动态建模与交互查询新方法。在巷道模型中加入地质层数、煤层数和煤质数据,使传统的三维巷道几何模型转变为显示巷道内部地质构造和丰富属性信息的三维模型。本文给出了研究方法和几个关键算法。采用约束Delaunay三角剖分算法(CD-TIN)和复杂多边形三角剖分算法,动态建立地下巷道的几何模型和属性模型。利用3D Ray的三维物体拾取算法获得三维VR场景中的x, y, z坐标。基于三维坐标,计算三维场景中巷道任意位置的煤质信息或地质构造,并进行可视化显示。最后,将这些算法应用于“三维煤质查询VR系统”的可视化系统中。该方法具有动态、易于维护等优点,为煤矿质量管理和安全生产管理提供了一种有用的工具。
3D Dynamic modeling and interactive query of underground roadway
A novel approach of 3D coalmine roadway dynamic modeling and interactive query taking roadway geological feature into account was discussed in this paper. Adding the geological layers, coal seams and coal quality data into the roadway model, the traditional 3D roadway geometric model turns to be a 3D model displaying the inner geological structure and the rich attribute information. The paper presented the research method and several key algorithms. By using Constrained Delaunay Triangulation algorithm (CD-TIN) and Complex Polygon Triangulation algorithm, the geometric model and attribute model of underground roadway was built dynamically. A 3D object picking algorithm using 3D Ray was also used to get x, y, z a coordinate in the 3D VR scene. Based on 3D coordinate, coal quality information or geological structure of any position on the roadway in the 3D scene was computed and visibly displayed. Finally, these algorithms were applied for a visualization system called “3D coal quality query VR system”. The methods, with advantages of dynamic and easy to maintenance, offered a useful tool for coal quality management and safety production management in coal mine.
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