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arxiv: 2503.05562 · v1 · pith:N425CSMWnew · submitted 2025-03-07 · 🧮 math.CO · cs.DM

On graph classes with constant domination-packing ratio

classification 🧮 math.CO cs.DM
keywords graphboundedclassesconstantgraphsratioclassclosed
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The dominating number $\gamma(G)$ of a graph $G$ is the minimum size of a vertex set whose closed neighborhood covers all the vertices of the graph. The packing number $\rho(G)$ of $G$ is the maximum size of a vertex set whose closed neighborhoods are pairwise disjoint. In this paper we study graph classes ${\cal G}$ such that $\gamma(G)/\rho(G)$ is bounded by a constant $c_{\cal G}$ for each $G\in {\cal G}$. We propose an inductive proof technique to prove that if $\cal G$ is the class of $2$-degenerate graphs, then there is such a constant bound $c_{\cal G}$. We note that this is the first monotone, dense graph class that is shown to have constant ratio. We also show that the classes of AT-free and unit-disk graphs have bounded ratio. In addition, our technique gives improved bounds on $c_{\cal G}$ for planar graphs, graphs of bounded treewidth or bounded twin-width. Finally, we provide some new examples of graph classes where the ratio is unbounded.

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Cited by 3 Pith papers

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    Establishes γ(G) ≤ 16ρ(G) for unit disk graphs and γ(G) ≤ (7/4)ρ(G) + 5/6 for bridgeless claw-free cubic graphs, with infinite families showing the bounds are not tight.

  3. On the Relationships between Domination, Isolation, and Packing

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    Establishes that ι/γ₂ < 2 holds for all trees while γ/ρ_L is unbounded there, gives class-specific bounds on γ/ρ_L, and shows every tree admits an isolating packing set.