Abstract
A k-core of a graph G is the maximal induced subgraph in which every vertex has degree at least k. In the Edgek-Core optimization problem, we are given a graph G and integers k, b and p. The task is to ensure that the k-core of G has at least p vertices, by adding at most b edges. While Edgek-Core is known to be computationally hard in general, we show that there are efficient algorithms when the k-core has to be constructed from a sparse graph with some structural properties. Our results are as follows.•When the input graph is a forest, Edgek-Core is solvable in polynomial time.•Edgek-Core is fixed-parameter tractable (FPT) when parameterized by the minimum size of a vertex cover in the input graph.•Edgek-Core is FPT when parameterized by the treewidth of the graph plus k.
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