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Upper bounds on the signed edge domination number of a graph
Citation
Dong, F., Ge, J., & Yang, Y. (2021). Upper bounds on the signed edge domination number of a graph. Discrete Mathematics, 344(2), Article 112201. https://doi.org/10.1016/j.disc.2020.112201
Abstract
A signed edge domination function (or SEDF) of a simple graph G=(V,E) is a function f:E→{1,−1} such that ∑e′∈N[e]f(e′)≥1 holds for each edge e∈E, where N[e] is the set of edges in that share at least one endpoint with e. Let γs′(G) denote the minimum value of f(G) among all SEDFs f, where f(G)=∑e∈Ef(e). In 2005, Xu conjectured that γs′(G)≤n−1, where n is the order of G. This conjecture has been proved for the two cases vodd(G)=0 and veven(G)=0, where vodd(G) (resp. veven(G)) is the number of odd (resp. even) vertices in G. This article proves Xu’s conjecture for veven(G)∈{1,2}. We also show that for any simple graph G of order n, γs′(G)≤n+vodd(G)∕2 and γs′(G)≤n−2+veven(G) when veven(G)>0, and thus γs′(G)≤(4n−2)∕3. Our result improves the best current upper bound of γs′(G)≤⌈3n∕2⌉.
Date Issued
2021
Publisher
Elsevier
Journal
Discrete Mathematics
Grant ID
NSFC (No. 11701401)
NSFC (No. 11971346)