A width parameter useful for chordal and co-comparability graphs

Abstract

We investigate new graph classes of bounded mim-width, strictly extending interval graphs and permutation graphs. The graphs Kt Kt and Kt St are graphs obtained from the disjoint union of two cliques of size t, and one clique of size t and one independent set of size t respectively, by adding a perfect matching. We prove that : (1) interval graphs are (K3 S3)-free chordal graphs; and (Kt St)-free chordal graphs have mim-width at most t-1, (2) permutation graphs are (K3 K3)-free co-comparability graphs; and (Kt Kt)-free co-comparability graphs have mim-width at most t-1, (3) chordal graphs and co-comparability graphs have unbounded mim-width in general. We obtain several algorithmic consequences; for instance, while Minimum Dominating Set is NP-complete on chordal graphs, it can be solved in time nO(t) on (Kt St)-free chordal graphs. The third statement strengthens a result of Belmonte and Vatshelle stating that either those classes do not have constant mim-width or a decomposition with constant mim-width cannot be computed in polynomial time unless P=NP. We generalize these ideas to bigger graph classes. We introduce a new width parameter sim-width, of stronger modelling power than mim-width, by making a small change in the definition of mim-width. We prove that chordal graphs and co-comparability graphs have sim-width at most 1. We investigate a way to bound mim-width for graphs of bounded sim-width by excluding Kt Kt and Kt St as induced minors or induced subgraphs, and give algorithmic consequences. Lastly, we show that circle graphs have unbounded sim-width, and thus also unbounded mim-width.