Monitoring arc-geodetic sets of oriented graphs

Tapas Das, Florent Foucaud, Clara Marcille, PD Pavan, Sagnik Sen
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Abstract

Monitoring edge-geodetic sets in a graph are subsets of vertices such that every edge of the graph must lie on all the shortest paths between two vertices of the monitoring set. These objects were introduced in a work by Foucaud, Krishna and Ramasubramony Sulochana with relation to several prior notions in the area of network monitoring like distance edge-monitoring. In this work, we explore the extension of those notions unto oriented graphs, modelling oriented networks, and call these objects monitoring arc-geodetic sets. We also define the lower and upper monitoring arc-geodetic number of an undirected graph as the minimum and maximum of the monitoring arc-geodetic number of all orientations of the graph. We determine the monitoring arc-geodetic number of fundamental graph classes such as bipartite graphs, trees, cycles, etc. Then, we characterize the graphs for which every monitoring arc-geodetic set is the entire set of vertices, and also characterize the solutions for tournaments. We also cover some complexity aspects by studying two algorithmic problems. We show that the problem of determining if an undirected graph has an orientation with the minimal monitoring arc-geodetic set being the entire set of vertices, is NP-hard. We also show that the problem of finding a monitoring arc-geodetic set of size at most $k$ is $NP$-complete when restricted to oriented graphs with maximum degree $4$.
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监测定向图的弧几何集
图中的监控边缘大地集是顶点的子集,使得图中的每条边都必须位于监控集两个顶点之间的所有最短路径上。这些对象是由 Foucaud、Krishna 和 Ramasubramony Sulochana 在网络监控领域的一些先前概念(如距离边缘监控)的基础上提出的。在这项工作中,我们探讨了将这些概念扩展到面向图、面向网络建模的问题,并将这些对象称为监控弧地理集。我们还将无向图的下限和上限监控弧几何数定义为该图所有方向的监控弧几何数的最小值和最大值。我们确定了基本图类的监控弧大地数,如二叉图、树、循环等。然后,我们描述了每个监控弧几何集都是整个顶点集的图的特征,并描述了锦标赛的解的特征。通过研究两个算法问题,我们还涉及了一些复杂性方面的问题。我们证明,确定一个无向图是否有一个方向,而最小的监控弧-几何集是整个顶点集,这个问题是 NP-难的。我们还证明,当局限于最大度为 $4$ 的有向图时,寻找大小最多为 $k$ 的监控弧几何集的问题是 $NP$ 完成的。
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