Dominant sets with neighborhood for trees
The subset $V' \subset V(G)$ forms a dominant set of vertices of the graph $G$ with a neighborhood $ \varepsilon$ if for any vertex $v \in V \backslash V'$ there is a vertex $u \in V'$ such that the length of the shortest chain connecting these vertices $d(v,u)\leqslant \varepsilon$;...
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| Format: | Article |
| Language: | English |
| Published: |
Yaroslavl State University
2025-03-01
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| Series: | Моделирование и анализ информационных систем |
| Subjects: | |
| Online Access: | https://www.mais-journal.ru/jour/article/view/1914 |
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| Summary: | The subset $V' \subset V(G)$ forms a dominant set of vertices of the graph $G$ with a neighborhood $ \varepsilon$ if for any vertex $v \in V \backslash V'$ there is a vertex $u \in V'$ such that the length of the shortest chain connecting these vertices $d(v,u)\leqslant \varepsilon$; $\delta_{\varepsilon}(G)$ is the number of vertices in the minimal $\varepsilon$-dominating set; $\delta_{\varepsilon}(G) = 1$ for $r(G)\leqslant \varepsilon \leqslant d(G)$; for $ \varepsilon < r(G)$ the numbers $\delta_{\varepsilon}(G) > 1$, but the calculation of $\delta_{1}(G)=\delta(G)$ is an NP-complete problem. The paper considers class of trees $t_{d}^{\rho}$ of diameter $d$ whose degrees of all internal vertices are equal to $\rho$. Constructive descriptions of trees $t \in t_{d}^{\rho}$ are given. Procedures for calculating the values $\delta_{\varepsilon}(t)$ in the range $1\leqslant \varepsilon < r (t)$ have been developed. Asymptotic estimates for $\delta_{\varepsilon}(t)$ and their share of the total number of vertices $t \in t_{d}^{\rho}$ are set at $d \to \infty$. Computational examples are given. |
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| ISSN: | 1818-1015 2313-5417 |