English

Algorithmic aspects of quasi-kernels

Discrete Mathematics 2021-07-09 v1 Combinatorics

Abstract

In a digraph, a quasi-kernel is a subset of vertices that is independent and such that every vertex can reach some vertex in that set via a directed path of length at most two. Whereas Chv\'atal and Lov\'asz proved in 1974 that every digraph has a quasi-kernel, very little is known so far about the complexity of finding small quasi-kernels. In 1976 Erd\H{o}s and Sz\'ekely conjectured that every sink-free digraph D=(V,A)D = (V, A) has a quasi-kernel of size at most V/2|V|/2. Obviously, if DD has two disjoint quasi-kernels then it has a quasi-kernel of size at most V/2|V|/2, and in 2001 Gutin, Koh, Tay and Yeo conjectured that every sink-free digraph has two disjoint quasi-kernels. Yet, they constructed in 2004 a counterexample, thereby disproving this stronger conjecture. We shall show that, not only sink-free digraphs occasionally fail to contain two disjoint quasi-kernels, but it is computationally hard to distinguish those that do from those that do not. We also prove that the problem of computing a small quasi-kernel is polynomial time solvable for orientations of trees but is computationally hard in most other cases (and in particular for restricted acyclic digraphs).

Keywords

Cite

@article{arxiv.2107.03793,
  title  = {Algorithmic aspects of quasi-kernels},
  author = {Hélène Langlois and Frédéric Meunier and Romeo Rizzi and Stéphane Vialette},
  journal= {arXiv preprint arXiv:2107.03793},
  year   = {2021}
}
R2 v1 2026-06-24T03:59:53.296Z