减少搜索区域,快速检测网格上精确的点对点大地路径

Shuai Ma, Wencheng Wang, Fei Hou
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引用次数: 0

摘要

在现有方法中,快速检测网格上精确的点对点大地路径仍是一项挑战。为此,我们提出了一种减少网格上待研究区域以提高效率的方法。根据我们的观察,网格及其简化网格非常相似,因此网格上两个确定点之间的大地路径与简化网格上对应两点之间的大地路径在三维欧几里得空间中非常接近。因此,利用简化网格上的大地路径,我们可以在原始网格上生成一个包含网格上大地路径的区域,称为搜索区域,现有方法可以通过该区域缩小检测大地路径的搜索范围,从而获得加速度。我们展示了我们提出的方法背后的原理。实验结果表明,我们可以很好地促进现有方法的发展,例如,在处理大型网格时,全局精确方法 VTP(面向顶点的三角形传播)甚至可以加速 200 倍以上。我们的搜索区域还能加快使用 Dijkstra 算法进行路径初始化的速度,从而促进局部方法的发展,例如,在我们的测试中至少加速了两倍。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Reducing Search Regions for Fast Detection of Exact Point-to-Point Geodesic Paths on Meshes.

Fast detection of exact point-to-point geodesic paths on meshes is still challenging with existing methods. For this, we present a method to reduce the region to be investigated on the mesh for efficiency. It is by our observation that a mesh and its simplified one are very alike so that the geodesic path between two defined points on the mesh and the geodesic path between their corresponding two points on the simplified mesh are very near to each other in the 3D Euclidean space. Thus, with the geodesic path on the simplified mesh, we can generate a region on the original mesh that contains the geodesic path on the mesh, called the search region, by which existing methods can reduce the search scope in detecting geodesic paths, and so obtaining acceleration. We demonstrate the rationale behind our proposed method. Experimental results show that we can promote existing methods well, e.g., the global exact method VTP (vertex-oriented triangle propagation) can be sped up by even over 200 times when handling large meshes. Our search region can also speed up path initialization using the Dijkstra algorithm to promote local methods, e.g., obtaining an acceleration of at least two times in our tests.

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