English

Cograph Editing: Merging Modules is equivalent to Editing P4's

Discrete Mathematics 2019-09-11 v3

Abstract

The modular decomposition of a graph G=(V,E)G=(V,E) does not contain prime modules if and only if GG is a cograph, that is, if no quadruple of vertices induces a simple connected path P4P_4. The cograph editing problem consists in inserting into and deleting from GG a set FF of edges so that H=(V,EΔF)H=(V,E\Delta F) is a cograph and F|F| is minimum. This NP-hard combinatorial optimization problem has recently found applications, e.g., in the context of phylogenetics. Efficient heuristics are hence of practical importance. The simple characterization of cographs in terms of their modular decomposition suggests that instead of editing GG one could operate directly on the modular decomposition. We show here that editing the induced P4P_4s is equivalent to resolving prime modules by means of a suitable defined merge operation on the submodules. Moreover, we characterize so-called module-preserving edit sets and demonstrate that optimal pairwise sequences of module-preserving edit sets exist for every non-cograph. This eventually leads to an exact algorithm for the cograph editing problem as well as fixed-parameter tractable (FPT) results when cograph editing is parameterized by the so-called modular-width. In addition, we provide two heuristics with time complexity O(V3)O(|V|^3), resp., O(V2)O(|V|^2).

Keywords

Cite

@article{arxiv.1702.07499,
  title  = {Cograph Editing: Merging Modules is equivalent to Editing P4's},
  author = {Marc Hellmuth and Adrian Fritz and Nicolas Wieseke and Peter F. Stadler},
  journal= {arXiv preprint arXiv:1702.07499},
  year   = {2019}
}
R2 v1 2026-06-22T18:27:12.987Z