On the adjacency dimension of graphs

Abstract

A generator of a metric space is a set S of points in the space with the property that every point of the space is uniquely determined by its distances from the elements of S. Given a simple graph G=(V,E), we define the distance function dG,2:V× V→ N \0\, as dG,2(x,y)=\dG(x,y),2\, where dG(x,y) is the length of a shortest path between x and y and N is the set of positive integers. Then (V,dG,2 ) is a metric space. We say that a set S⊂eq V is a k-adjacency generator for G if for every two vertices x,y∈ V, there exist at least k vertices w1,w2,...,wk∈ S such that dG,2(x,wi) dG,2(y,wi),\; for every\; i∈ \1,...,k\. A minimum cardinality k-adjacency generator is called a k-adjacency basis of G and its cardinality, the k-adjacency dimension of G. In this article we study the problem of finding the k-adjacency dimension of a graph. We give some necessary and sufficient conditions for the existence of a k-adjacency basis of an arbitrary graph G and we obtain general results on the k-adjacency dimension, including general bounds and closed formulae for some families of graphs. In particular, we obtain closed formulae for the k-adjacency dimension of join graphs G+H in terms of the k-adjacency dimension of G and H. These results concern the k-metric dimension, as join graphs have diameter two. As we can expect, the obtained results will become important tools for the study of the k-metric dimension of lexicographic product graphs and corona product graphs.