Mixed metric dimension of graphs

Let G=(V,E) be a connected graph. A vertex w ∈ V distinguishes two elements (vertices or edges) x, y ∈ E ∪ V if dG(w, x) ≠ dG(w, y). A set S of vertices in a connected graph G is a mixed metric generator for G if every two distinct elements (vertices or edges) of G are distinguished by some vertex o...

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Bibliographic Details
Published inApplied mathematics and computation Vol. 314; pp. 429 - 438
Main Authors Kelenc, Aleksander, Kuziak, Dorota, Taranenko, Andrej, G. Yero, Ismael
Format Journal Article
LanguageEnglish
Published Elsevier Inc 01.12.2017
Subjects
Edge metric dimension
Metric dimension
Mixed metric dimension
05C90
05C12
Mixed metric dimension
Edge metric dimension
Metric dimension
05C85
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Summary:Let G=(V,E) be a connected graph. A vertex w ∈ V distinguishes two elements (vertices or edges) x, y ∈ E ∪ V if dG(w, x) ≠ dG(w, y). A set S of vertices in a connected graph G is a mixed metric generator for G if every two distinct elements (vertices or edges) of G are distinguished by some vertex of S. The smallest cardinality of a mixed metric generator for G is called the mixed metric dimension and is denoted by dimm(G). In this paper we consider the structure of mixed metric generators and characterize graphs for which the mixed metric dimension equals the trivial lower and upper bounds. We also give results about the mixed metric dimension of some families of graphs and present an upper bound with respect to the girth of a graph. Finally, we prove that the problem of determining the mixed metric dimension of a graph is NP-hard in the general case.
ISSN:0096-3003
1873-5649
DOI:10.1016/j.amc.2017.07.027