The article focuses on the computational complexity of recognizing well-covered graphs and their generalizations, known as Wk graphs and Es graphs.
Key highlights:
The authors first introduce the Wk hierarchy, where a graph G is Wk if for any k pairwise disjoint independent sets, there exist k pairwise disjoint maximum independent sets containing them. They show that recognizing Wk+1 graphs is coNP-complete, even when the input graph is Wk or Es.
Next, the authors investigate the complexity of recognizing Es graphs, where a graph is Es if every independent set of size at most s is contained in a maximum independent set. They prove that recognizing Es graphs is Θp2-complete, even when the input graph is Es-1.
For chordal graphs, the authors provide a linear-time algorithm to decide if a chordal graph is 1-extendable, by characterizing 1-extendable chordal graphs as those that can be partitioned into maximal cliques. They also show that recognizing Es chordal graphs is coW[2]-hard when parameterized by s.
The article concludes by highlighting two open problems: the complexity of recognizing well-covered triangle-free graphs and co-well-covered graphs.
Para Outro Idioma
do conteúdo original
arxiv.org
Principais Insights Extraídos De
by Carl... às arxiv.org 04-12-2024
https://arxiv.org/pdf/2404.07853.pdfPerguntas Mais Profundas