English

Bounded Search Tree Algorithms for Parameterized Cograph Deletion: Efficient Branching Rules by Exploiting Structures of Special Graph Classes

Discrete Mathematics 2015-05-19 v2 Data Structures and Algorithms

Abstract

Many fixed-parameter tractable algorithms using a bounded search tree have been repeatedly improved, often by describing a larger number of branching rules involving an increasingly complex case analysis. We introduce a novel and general search strategy that branches on the forbidden subgraphs of a graph class relaxation. By using the class of P4P_4-sparse graphs as the relaxed graph class, we obtain efficient bounded search tree algorithms for several parameterized deletion problems. We give the first non-trivial bounded search tree algorithms for the cograph edge-deletion problem and the trivially perfect edge-deletion problems. For the cograph vertex deletion problem, a refined analysis of the runtime of our simple bounded search algorithm gives a faster exponential factor than those algorithms designed with the help of complicated case distinctions and non-trivial running time analysis [21] and computer-aided branching rules [11].

Keywords

Cite

@article{arxiv.1006.3020,
  title  = {Bounded Search Tree Algorithms for Parameterized Cograph Deletion: Efficient Branching Rules by Exploiting Structures of Special Graph Classes},
  author = {James Nastos and Yong Gao},
  journal= {arXiv preprint arXiv:1006.3020},
  year   = {2015}
}

Comments

23 pages. Accepted in Discrete Mathematics, Algorithms and Applications (DMAA)

R2 v1 2026-06-21T15:36:35.580Z