Computing Largest Circles Separating Two Sets of Segments

International Journal of Computational Geometry and Applications Pub Date : 1996-08-12 DOI:10.1142/S0218195900000036
J. Boissonnat, J. Czyzowicz, O. Devillers, J. Urrutia, M. Yvinec
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引用次数: 22

Abstract

A circle $C$ separates two planar sets if it encloses one of the sets and its open interior disk does not meet the other set. A separating circle is a largest one if it cannot be locally increased while still separating the two given sets. An $\Theta(n \log n)$ optimal algorithm is proposed to find all largest circles separating two given sets of line segments when line segments are allow ed to meet only at their endpoints. This settles an open problem from a previous paper\cite{bcdy-csp-95}. In the general case, when line segments may intersect $Omega(n^2)$ times, our algorithm can be adapted to work in $O(n \alpha(n) \log n)$ time and $O(n \alpha(n))$ space, where $\alpha(n)$ represents the extremely slowly growing inverse of Ackermann function.
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计算分离两组分段的最大圆
一个圆$C$将两个平面集合分开,如果它包围了其中一个集合,并且它开放的内部圆盘不满足另一个集合。如果一个分离的圆在分离两个给定集合的同时不能局部增加,那么它就是最大的圆。提出了一种$\Theta(n \log n)$最优算法,当两组给定线段只允许在端点相交时,求出两组线段之间的所有最大圆。这解决了之前一篇论文\cite{bcdy-csp-95}中的一个开放性问题。在一般情况下,当线段可能相交$Omega(n^2)$次时,我们的算法可以适应$O(n \alpha(n) \log n)$时间和$O(n \alpha(n))$空间,其中$\alpha(n)$表示Ackermann函数的极慢增长逆。
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International Journal of Computational Geometry and Applications
International Journal of Computational Geometry and Applications
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