刚性图中的局部反射和全局关联对

Pub Date : 2024-07-03 DOI:10.1137/23m157065x
Dániel Garamvölgyi, Tibor Jordán
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引用次数: 0

摘要

SIAM 离散数学杂志》,第 38 卷第 3 期,第 2005-2040 页,2024 年 9 月。 摘要一个[math]维框架是一对[math],其中[math]是一个图,[math]将[math]的顶点映射到[math]中的点。数学]的边映射为相应的线段。如果一个图[math]的每一个通用[math]维框架[math]都是由它的边长决定的(直到全等),那么这个图[math]在[math]中就被称为全局刚性图。一个更精细的属性是全局链接性:如果在每一个通用的[math]维框架[math]中,[math]和[math]之间的距离是由边长唯一决定的,我们就说[math]的一对顶点[math]在[math]中是全局链接的。在本文中,我们研究了[math]中图的全局链接对。我们给出了刚性图[math]的几个特征,在这些刚性图[math]中,当且仅当[math]中存在从[math]到[math]的[math]内部不相交路径时,一对[math]是全局相连的。我们称这些图为[math]连接图。其中,我们证明了当且仅当[math]的每一对具有相同边长的一般框架可以通过沿由[math]的[math]分隔符决定的超平面的部分反射序列从另一个框架得到时,[math]是[math]连接的。我们还证明,[math]连接图系在边相加以及沿[math]或更多顶点胶合的情况下是封闭的。作为主要结果的关键要素,我们证明了[math]中的刚性图不包含交叉[math]分隔符。我们的结果产生了新的图族,对于这些图族,[math] 中的全局链接性(和全局刚性)可以在多项式时间内得到检验。
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Partial Reflections and Globally Linked Pairs in Rigid Graphs
SIAM Journal on Discrete Mathematics, Volume 38, Issue 3, Page 2005-2040, September 2024.
Abstract. A [math]-dimensional framework is a pair [math], where [math] is a graph and [math] maps the vertices of [math] to points in [math]. The edges of [math] are mapped to the corresponding line segments. A graph [math] is said to be globally rigid in [math] if every generic [math]-dimensional framework [math] is determined, up to congruence, by its edge lengths. A finer property is global linkedness: we say that a vertex pair [math] of [math] is globally linked in [math] in [math] if in every generic [math]-dimensional framework [math] the distance between [math] and [math] is uniquely determined by the edge lengths. In this paper we investigate globally linked pairs in graphs in [math]. We give several characterizations of those rigid graphs [math] in which a pair [math] is globally linked if and only if there exist [math] internally disjoint paths from [math] to [math] in [math]. We call these graphs [math]-joined. Among others, we show that [math] is [math]-joined if and only if for each pair of generic frameworks of [math] with the same edge lengths, one can be obtained from the other by a sequence of partial reflections along hyperplanes determined by [math]-separators of [math]. We also show that the family of [math]-joined graphs is closed under edge addition, as well as under gluing along [math] or more vertices. As a key ingredient to our main results, we prove that rigid graphs in [math] contain no crossing [math]-separators. Our results give rise to new families of graphs for which global linkedness (and global rigidity) in [math] can be tested in polynomial time.
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