A Comparison between the Metric Dimension and Zero Forcing Number of Trees and Unicyclic Graphs

Abstract

The metric dimension (G) of a graph G is the minimum number of vertices such that every vertex of G is uniquely determined by its vector of distances to the chosen vertices. The zero forcing number Z(G) of a graph G is the minimum cardinality of a set S of black vertices (whereas vertices in V(G)\!\!S are colored white) such that V(G) is turned black after finitely many applications of "the color-change rule": a white vertex is converted black if it is the only white neighbor of a black vertex. We show that (T) ≤ Z(T) for a tree T, and that (G) Z(G)+1 if G is a unicyclic graph, along the way, we characterize trees T attaining (T)=Z(T). For a general graph G, we introduce the "cycle rank conjecture". We conclude with a proof of (T)-2 ≤ (T+e) (T)+1 for e ∈ E(T).