FPT Algorithms to Compute the Elimination Distance to Bipartite Graphs and More

Abstract

For a hereditary graph class H, the H-elimination distance of a graph G is the minimum number of rounds needed to reduce G to a member of H by removing one vertex from each connected component in each round. The H-treewidth of a graph G is the minimum, taken over all vertex sets X for which each connected component of G - X belongs to H, of the treewidth of the graph obtained from G by replacing the neighborhood of each component of G-X by a clique and then removing V(G) X. These parameterizations recently attracted interest because they are simultaneously smaller than the graph-complexity measures treedepth and treewidth, respectively, and the vertex-deletion distance to H. For the class H of bipartite graphs, we present non-uniform fixed-parameter tractable algorithms for testing whether the H-elimination distance or H-treewidth of a graph is at most k. Along the way, we also provide such algorithms for all graph classes H defined by a finite set of forbidden induced subgraphs.

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