Abstract
In a graph \(G=(V,E)\), a vertex \(v\in V\) is said to ve-dominate the edges incident on v as well as the edges adjacent to these incident edges on v. A set \(D\subseteq V\) is called a double vertex-edge dominating set if every edge of the graph is ve-dominated by at least two vertices of D. Given a graph G, the double vertex-edge dominating problem, namely Min-DVEDS is to find a minimum double vertex-edge dominating set of G. In this paper, we show that the decision version of Min-DVEDS is NP-complete for chordal graphs. We present a linear time algorithm to find a minimum double vertex-edge dominating set in proper interval graphs. We also show that for a graph having n vertices, Min-DVEDS cannot be approximated within \((1 -\varepsilon ) \ln n\) for any \(\varepsilon > 0\) unless NP \(\subseteq \) DTIME(\(n^{O(\log \log n)}\)). On positive side, we show that Min-DVEDS can be approximated by a factor of \(O(\ln \varDelta )\). Finally, we show that Min-DVEDS is APX-complete for graphs with maximum degree 5.
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Acknowledgements
The authors would like to thank the anonymous referees for their comments that lead to improvements in the paper. The research of the third author is supported by MATRICS project, MTR/2018/000234, Science and Engineering Research Board (SERB), India.
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Naresh Kumar, H., Pradhan, D. & Venkatakrishnan, Y.B. Double vertex-edge domination in graphs: complexity and algorithms. J. Appl. Math. Comput. 66, 245–262 (2021). https://doi.org/10.1007/s12190-020-01433-5
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DOI: https://doi.org/10.1007/s12190-020-01433-5