English

Edge Roman domination on graphs

Combinatorics 2022-12-06 v2

Abstract

An edge Roman dominating function of a graph GG is a function f ⁣:E(G){0,1,2}f\colon E(G) \rightarrow \{0,1,2\} satisfying the condition that every edge ee with f(e)=0f(e)=0 is adjacent to some edge ee' with f(e)=2f(e')=2. The edge Roman domination number of GG, denoted by γR(G)\gamma'_R(G), is the minimum weight w(f)=eE(G)f(e)w(f) = \sum_{e\in E(G)} f(e) of an edge Roman dominating function ff of GG. This paper disproves a conjecture of Akbari, Ehsani, Ghajar, Jalaly Khalilabadi and Sadeghian Sadeghabad stating that if GG is a graph of maximum degree Δ\Delta on nn vertices, then γR(G)ΔΔ+1n\gamma_R'(G) \le \lceil \frac{\Delta}{\Delta+1} n \rceil. While the counterexamples having the edge Roman domination numbers 2Δ22Δ1n\frac{2\Delta-2}{2\Delta-1} n, we prove that 2Δ22Δ1n+22Δ1\frac{2\Delta-2}{2\Delta-1} n + \frac{2}{2\Delta-1} is an upper bound for connected graphs. Furthermore, we provide an upper bound for the edge Roman domination number of kk-degenerate graphs, which generalizes results of Akbari, Ehsani, Ghajar, Jalaly Khalilabadi and Sadeghian Sadeghabad. We also prove a sharp upper bound for subcubic graphs. In addition, we prove that the edge Roman domination numbers of planar graphs on nn vertices is at most 67n\frac{6}{7}n, which confirms a conjecture of Akbari and Qajar. We also show an upper bound for graphs of girth at least five that is 2-cell embeddable in surfaces of small genus. Finally, we prove an upper bound for graphs that do not contain K2,3K_{2,3} as a subdivision, which generalizes a result of Akbari and Qajar on outerplanar graphs.

Keywords

Cite

@article{arxiv.1405.5622,
  title  = {Edge Roman domination on graphs},
  author = {Gerard J. Chang and Sheng-Hua Chen and Chun-Hung Liu},
  journal= {arXiv preprint arXiv:1405.5622},
  year   = {2022}
}
R2 v1 2026-06-22T04:20:32.441Z