English

Hardness and approximation for the geodetic set problem in some graph classes

Discrete Mathematics 2020-12-08 v1 Data Structures and Algorithms

Abstract

In this paper, we study the computational complexity of finding the \emph{geodetic number} of graphs. A set of vertices SS of a graph GG is a \emph{geodetic set} if any vertex of GG lies in some shortest path between some pair of vertices from SS. The \textsc{Minimum Geodetic Set (MGS)} problem is to find a geodetic set with minimum cardinality. In this paper, we prove that solving the \textsc{MGS} problem is NP-hard on planar graphs with a maximum degree six and line graphs. We also show that unless P=NPP=NP, there is no polynomial time algorithm to solve the \textsc{MGS} problem with sublogarithmic approximation factor (in terms of the number of vertices) even on graphs with diameter 22. On the positive side, we give an O(n3logn)O\left(\sqrt[3]{n}\log n\right)-approximation algorithm for the \textsc{MGS} problem on general graphs of order nn. We also give a 33-approximation algorithm for the \textsc{MGS} problem on the family of solid grid graphs which is a subclass of planar graphs.

Keywords

Cite

@article{arxiv.1909.08795,
  title  = {Hardness and approximation for the geodetic set problem in some graph classes},
  author = {Dibyayan Chakraborty and Florent Foucaud and Harmender Gahlawat and Subir Kumar Ghosh and Bodhayan Roy},
  journal= {arXiv preprint arXiv:1909.08795},
  year   = {2020}
}
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