Towards Transitive-free Digraphs
Abstract
In a digraph , an arc in is considered transitive if there is a path from to in . A digraph is transitive-free if it does not contain any transitive arc. In the Transitive-free Vertex Deletion (TVD) problem, the goal is to find at most vertices such that has no transitive arcs. In our work, we study a more general version of the TVD problem, denoted by -Relaxed Transitive-free Vertex Deletion (-RTVD), where we look for at most vertices such that has no more than transitive arcs. We explore -RTVD on various well-known graph classes of digraphs such as directed acyclic graphs (DAGs), planar DAGs, -bounded digraphs, tournaments, and their multiple generalizations such as in-tournaments, out-tournaments, local tournaments, acyclic local tournaments, and obtain the following results. Although the problem admits polynomial-time algorithms in tournaments, -bounded digraphs, and acyclic local tournaments for fixed values of , it remains NP-hard even in planar DAGs with maximum degree 6. In the parameterized realm, for -RTVD on in-tournaments and out-tournaments, we obtain polynomial kernels parameterized by for bounded independence number. But the problem remains fixed-parameter intractable on DAGs when parameterized by .
Cite
@article{arxiv.2503.10541,
title = {Towards Transitive-free Digraphs},
author = {Ankit Abhinav and Satyabrata Jana and Abhishek Sahu},
journal= {arXiv preprint arXiv:2503.10541},
year = {2025}
}