On {l}-Metric Dimensions in Graphs




Hakanen A, Laihonen T

PublisherIOS PRESS

2018

Fundamenta Informaticae

FUNDAMENTA INFORMATICAE

FUND INFORM

162

2-3

143

160

18

0169-2968

1875-8681

DOIhttps://doi.org/10.3233/FI-2018-1718(external)



A subset S of vertices is a resolving set in a graph if every vertex has a unique array of distances to the vertices of S. Consequently, we can locate any vertex of the graph with the aid of the distance arrays. The problem of finding the smallest cardinality of a resolving set in a graph has been widely studied over the years. In this paper, we consider sets S which can locate several, say up to l, vertices in a graph. These sets are called {l}-resolving sets and the smallest cardinality of such a set is the {l}-metric dimension of the graph. In this paper, we will give the {l}-metric dimensions for trees and king grids. We will show that there are certain vertices that necessarily belong to an {l}-resolving set. Moreover, we will classify all graphs whose {l}-metric dimension equals l.



Last updated on 2024-26-11 at 22:54