On Monitoring Edge-Geodetic Sets of Dynamic Graph

Abstract

The concept of a monitoring edge-geodetic set (MEG-set) in a graph G, denoted MEG(G), refers to a subset of vertices MEG(G)⊂eq V(G) such that every edge e in G is monitored by some pair of vertices u, v ∈ MEG(G), where e lies on all shortest paths between u and v. The minimum number of vertices required to form such a set is called the monitoring edge-geodetic number, denoted meg(G). The primary motivation for studying MEG-sets in previous works arises from scenarios in which certain edges are removed from G. In these cases, the vertices of the MEG-set are responsible for detecting these deletions. Such detection is crucial for identifying which edges have been removed from G and need to be repaired. In real life, repairing these edges may be costly, or sometimes it is impossible to repair edges. In this case, the original MEG-set may no longer be effective in monitoring the modified graph. This highlights the importance of reassessing and adapting the MEG-set after edge deletions. This work investigates the monitoring edge-geodetic properties of graphs, focusing on how the removal of k edges affects the structure of a graph and influences its monitoring capabilities. Specifically, we explore how the monitoring edge-geodetic number meg(G) changes when k edges are removed. The study aims to compare the monitoring properties of the original graph with those of the modified graph and to understand the impact of edge deletions.

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