On Bisectors for Convex Distance Functions

2011 Eighth International Symposium on Voronoi Diagrams in Science and Engineering Pub Date : 2011-06-28 DOI:10.1109/ISVD.2011.12

Chan He, H. Martini, Senlin Wu

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引用次数: 13

Abstract

It is well known that the construction of Voronoi diagrams is based on the notion of \emph{bisector} of two given oints. Already in nor med linear spaces, bisectors have a complicated structure and can, for many classes of norms, only be described with the help of topological methods. Even more general, we present results on bisectors for convex distance functions (gauges). Let $C$, with the origin $o$ from its interior, be the compact, convex set inducing a convex distance function (gauge) in the plane, nd let $B(-x,x)$ be the bisector of $-x$ and $x$, i.e., the set of points $z$ such that the distance (measured with the convex distance function induced by $C$) from $z$ to $-x$ equals that from $z$ to $x$. For example, we prove the following characterization of the Euclidean norm within the family of all convex distance functions: if the set $L$ of points $x$ in the boundary $\partial C$ of $C$ that creates $B(-x,x)$ as a straight line has non-empty interior with respect to $\partial C$, then $C$ is an ellipse centered at the origin. For the sub case of nor med planes we give an easier approach, extending the result also to higher dimensions.

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凸距离函数的等分线

众所周知，Voronoi图的构造是基于的概念 \emph{平分线} 两个给定点的。在非线性空间中，等分线具有复杂的结构，并且对于许多种类的范数，只能借助拓扑方法来描述。更一般的是，我们给出了凸距离函数(量规)的等分线的结果。让 $C$，原点 $o$ 从它的内部，是紧致的凸集，在平面上引出一个凸距离函数(规范)，令 $B(-x,x)$ 的平分线 $-x$ 和 $x$，即点的集合 $z$ 使得距离(用由 $C$) $z$ 到 $-x$ 等于 $z$ 到 $x$．例如，我们证明了欧几里得范数在所有凸距离函数族中的下列表征:如果集合 $L$ 点的 $x$ 在边界上 $\partial C$ 的 $C$ 这就产生了 $B(-x,x)$ 因为直线的内部不是空的 $\partial C$那么， $C$ 是以原点为中心的椭圆。对于非平面的子情况，我们给出了一种更简单的方法，将结果扩展到更高的维度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2011 Eighth International Symposium on Voronoi Diagrams in Science and Engineering

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