Abstract
A subset S of nodes in a graph G is a k-connected m-dominating set ((k , m)-cds) if the subgraph G[S] induced by S is k-connected and every \(v \in V {\setminus } S\) has at least m neighbors in S. In the k -Connected m -Dominating Set ((k , m)-CDS) problem, the goal is to find a minimum weight (k, m)-cds in a node-weighted graph. For \(m \ge k\) we obtain the following approximation ratios. For unit disk graphs we improve the ratio \(O(k \ln k)\) of Nutov (Inf Process Lett 140:30–33, 2018) to \(\min \left\{ \frac{m^2}{(m-k+1)^2},k^{2/3}\right\} \cdot O(\ln ^2 k)\)—this is the first sublinear ratio for the problem, and the first polylogarithmic ratio \(O(\ln ^2 k)/\epsilon ^2\) when \(m \ge (1+\epsilon )k\); furthermore, we obtain ratio \(\min \left\{ \frac{m}{m-k+1},\sqrt{k}\right\} \cdot O(\ln ^2 k)\) for uniform weights. For general graphs our ratio \(O(k \ln n)\) improves the previous best ratio \(O(k^2 \ln n)\) of Nutov (2018) and matches the best known ratio for unit weights of Zhang et al. (INFORMS J Comput 30(2):217–224, 2018). These results are obtained by showing the same ratios for the Subset k -Connectivity problem when the set of terminals is an m-dominating set.
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A preliminary version appeared in ESA 2020: 73:1–73:14.
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Nutov, Z. Approximating k-Connected m-Dominating Sets. Algorithmica 84, 1511–1525 (2022). https://doi.org/10.1007/s00453-022-00935-x
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DOI: https://doi.org/10.1007/s00453-022-00935-x