Kernelization Complexity of Solution Discovery Problems
Abstract
In the solution discovery variant of a vertex (edge) subset problem on graphs, we are given an initial configuration of tokens on the vertices (edges) of an input graph together with a budget . The question is whether we can transform this configuration into a feasible solution of on with at most modification steps. We consider the token sliding variant of the solution discovery framework, where each modification step consists of sliding a token to an adjacent vertex (edge). The framework of solution discovery was recently introduced by Fellows et al. [Fellows et al., ECAI 2023] and for many solution discovery problems the classical as well as the parameterized complexity has been established. In this work, we study the kernelization complexity of the solution discovery variants of Vertex Cover, Independent Set, Dominating Set, Shortest Path, Matching, and Vertex Cut with respect to the parameters number of tokens , discovery budget , as well as structural parameters such as pathwidth.
Cite
@article{arxiv.2409.17250,
title = {Kernelization Complexity of Solution Discovery Problems},
author = {Mario Grobler and Stephanie Maaz and Amer E. Mouawad and Naomi Nishimura and Vijayaragunathan Ramamoorthi and Sebastian Siebertz},
journal= {arXiv preprint arXiv:2409.17250},
year = {2024}
}