2022
DOI: 10.1007/s00453-022-00936-w
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Node Multiway Cut and Subset Feedback Vertex Set on Graphs of Bounded Mim-Width

Abstract: The two weighted graph problems Node Multiway Cut (NMC) and Subset Feedback Vertex Set (SFVS) both ask for a vertex set of minimum total weight, that for NMC disconnects a given set of terminals, and for SFVS intersects all cycles containing a vertex of a given set. We design a meta-algorithm that allows to solve both problems in time $$2^{O(rw^3)}\cdot n^{4}$$ 2 O ( r … Show more

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Cited by 17 publications
(29 citation statements)
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“…Papadopoulos and Tzimas [32,33] proved that Subset Feedback Vertex Set is polynomial-time solvable for sP 1 -free graphs for any s ≥ 1, cobipartite graphs, interval graphs and permutation graphs, and thus P 4 -free graphs. Some of these results were generalized by Bergougnoux et al [2], who solved an open problem of Jaffke et al [23] by giving an n O(w 2 ) -time algorithm for Subset Feedback Vertex Set given a graph and a decomposition of this graph of mim-width w. This does not lead to new results for H-free graphs: a class of H-free graphs has bounded mim-width if and only if H ⊆ i P 4 [7].…”
Section: Subset Vertex Covermentioning
confidence: 71%
“…Papadopoulos and Tzimas [32,33] proved that Subset Feedback Vertex Set is polynomial-time solvable for sP 1 -free graphs for any s ≥ 1, cobipartite graphs, interval graphs and permutation graphs, and thus P 4 -free graphs. Some of these results were generalized by Bergougnoux et al [2], who solved an open problem of Jaffke et al [23] by giving an n O(w 2 ) -time algorithm for Subset Feedback Vertex Set given a graph and a decomposition of this graph of mim-width w. This does not lead to new results for H-free graphs: a class of H-free graphs has bounded mim-width if and only if H ⊆ i P 4 [7].…”
Section: Subset Vertex Covermentioning
confidence: 71%
“…For every connected component C of a chordal graph G, we compute its leafage and the corresponding tree model T (C) by using the O(n 3 )-time algorithm of Habib and Stacho [20]. If the leafage of C is less than two, then C is an interval graph and we can compute A (1) time by running the algorithm for SFVS on interval graphs given in [28]. Otherwise, we compute the expanded tree model T (C) from T (C) by Lemma 2 in O(n 2 ) time.…”
Section: Sfvs On Graphs With Bounded Leafagementioning
confidence: 99%
“…Among the stated classes, we stress that interval graphs is the only known subclass of chordal graphs for which Subset Feedback Vertex Set is solved in polynomial time. Related to the structural parameter mim-width, Bergougnoux et al [1] recently proposed an n O(w 2 ) -time algorithm that solves Subset Feedback Vertex Set given a decomposition of the input graph of mim-width w. As leaf power graphs admit a decomposition of mim-width one [23], from the later algorithm Subset Feedback Vertex Set can be solved in polynomial time on leaf power graphs if an intersection model is given as input. However, to the best of our knowledge, it is not known whether the intersection model of a leaf power graph can be constructed in polynomial time.…”
Section: Introductionmentioning
confidence: 99%
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