The Connected Domination Number of Grids
Closed form expressions for the domination number of an $n \times m$ grid have attracted significant attention, and an exact expression has been obtained in 2011 by Gon\c{c}alves et al. In this paper, we present our results on obtaining new lower bounds on the connected domination number of an $n \t...
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Zusammenfassung: | Closed form expressions for the domination number of an $n \times m$ grid
have attracted significant attention, and an exact expression has been obtained
in 2011 by Gon\c{c}alves et al. In this paper, we present our results on
obtaining new lower bounds on the connected domination number of an $n \times
m$ grid. The problem has been solved for grids with up to $4$ rows and with $6$
rows by Tolouse et al and the best currently known lower bound for arbitrary
$m,n$ is $\lceil\frac{mn}{3}\rceil$. Fujie came up with a general construction
for a connected dominating set of an $n \times m$ grid of size $\min
\left\{2n+(m-4)+\lfloor\frac{m-4}{3}\rfloor(n-2),
2m+(n-4)+\lfloor\frac{n-4}{3}\rfloor(m-2) \right\}$ . In this paper, we
investigate whether this construction is indeed optimum. We prove a new lower
bound of $\left\lceil\frac{mn+2\lceil\frac{\min \{m,n\}}{3}\rceil}{3}
\right\rceil$ for arbitrary $m,n \geq 4$. |
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DOI: | 10.48550/arxiv.2011.11328 |