Open AccessThe complexity of secure domination problem in graphs
Author(s) -
Yun-Ping Deng,
Haichao Wang,
Yancai Zhao
Publication year - 2017
Publication title -
discussiones mathematicae graph theory
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.476
H-Index - 19
eISSN - 2083-5892
pISSN - 1234-3099
DOI - 10.7151/dmgt.2008
Subject(s) - dominating set , dtime , combinatorics , vertex (graph theory) , bipartite graph , mathematics , chordal graph , domination analysis , bounded function , maximal independent set , time complexity , discrete mathematics , graph , 1 planar graph , turing machine , algorithm , universal turing machine , mathematical analysis , computation
A dominating set of a graph G is a subset D ⊆ V (G) such that every vertex not in D is adjacent to at least one vertex in D. A dominating set S of G is called a secure dominating set if each vertex u ∈ V (G) \ S has one neighbor v in S such that (S \ {v}) ∪ {u} is a dominating set of G. The secure domination problem is to determine a minimum secure dominating set of G. In this paper, we first show that the decision version of the secure domination problem is NP-complete for star convex bipartite graphs and doubly chordal graphs. We also prove that the secure domination problem cannot be approximated within a factor of (1−ε) ln |V | for any ε > 0, unless NP⊆DTIME (|V |O(log log |V|)). Finally, we show that the secure domination problem is APX-complete for bounded degree graphs.
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