Maximal Distortion of Geodesic Diameters in Polygonal Domains

International Workshop on Combinatorial Algorithms Pub Date : 2023-04-07 DOI:10.48550/arXiv.2304.03484
A. Dumitrescu, Csaba D. T'oth
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Abstract

For a polygon $P$ with holes in the plane, we denote by $\varrho(P)$ the ratio between the geodesic and the Euclidean diameters of $P$. It is shown that over all convex polygons with $h$~convex holes, the supremum of $\varrho(P)$ is between $\Omega(h^{1/3})$ and $O(h^{1/2})$. The upper bound improves to $O(1+\min\{h^{3/4}\Delta,h^{1/2}\Delta^{1/2}\})$ if every hole has diameter at most $\Delta\cdot {\rm diam}_2(P)$; and to $O(1)$ if every hole is a \emph{fat} convex polygon. Furthermore, we show that the function $g(h)=\sup_P \varrho(P)$ over convex polygons with $h$ convex holes has the same growth rate as an analogous quantity over geometric triangulations with $h$ vertices when $h\rightarrow \infty$.
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多边形域测地线直径的最大畸变
对于平面上有孔的多边形$P$,我们用$\varrho(P)$表示$P$的测地线直径与欧几里得直径之间的比值。结果表明,在所有具有$h$凸孔的凸多边形上,$\varrho(P)$的极值在$\Omega(h^{1/3})$和$O(h^{1/2})$之间。如果每个孔的直径不超过$\Delta\cdot {\rm diam}_2(P)$,上限提高到$O(1+\min\{h^{3/4}\Delta,h^{1/2}\Delta^{1/2}\})$;如果每个孔都是一个\emph{胖}凸多边形,就会得到$O(1)$。此外,我们表明,当$h\rightarrow \infty$时,具有$h$凸孔的凸多边形上的函数$g(h)=\sup_P \varrho(P)$与具有$h$顶点的几何三角形上的类似量具有相同的增长率。
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International Workshop on Combinatorial Algorithms
International Workshop on Combinatorial Algorithms
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