求-避Voronoi图

4th International Symposium on Voronoi Diagrams in Science and Engineering (ISVD 2007) Pub Date : 2007-07-09 DOI:10.1109/ISVD.2007.33

Warren Cheung, W. Evans

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引用次数: 1

摘要

我们得到了两个追捕者和一个逃避者。每个追踪者和逃避者在平面上都有一个相关联的起始点、最大速度和起始时间。我们也有一组有n个端点的线段障碍。我们的任务是在平面上找到那些点，称为逃避者区域，逃避者可以通过逃避路径到达这些点。如果逃避者可以从起点穿越路径而不会在途中遇到追踪者，则该路径是可回避的。逃避者和追赶者必须遵守各自的起始时间和速度限制，不能越过障碍物。将平面划分为逃避者区域和剩余的追踪者区域称为追踪-逃避Voronoi图。我们研究了lscr1度量的追求-逃避Voronoi图。我们证明了图的复杂度为O((n + m)2(mn + m))，并且可以在多项式时间内计算。

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Pursuit-Evasion Voronoi Diagrams in \ell_1

We are given m pursuers and one evader. Each pursuer and the evader has an associated starting point in the plane, a maximum speed, and a start time. We also have a set of line segment obstacles with a total of n endpoints. Our task is to find those points in the plane, called the evader's region, that the evader can reach via evasive paths. A path is evasive if the evader can traverse the path from its starting point without encountering a pursuer along the way. The evader and the pursuers must obey their start time and speed constraints, and cannot go through obstacles. The partition of the plane into the evader's region and the remaining pursuers' region is called the pursuit-evasion Voronoi diagram. We study pursuit-evasion Voronoi diagrams for the lscr1 metric. We show that the complexity of the diagram is O((n + m)2(mn + m)) and that it can be calculated in polynomial time.

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4th International Symposium on Voronoi Diagrams in Science and Engineering (ISVD 2007)

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