English

Kernels for Below-Upper-Bound Parameterizations of the Hitting Set and Directed Dominating Set Problems

Data Structures and Algorithms 2011-07-11 v3 Discrete Mathematics

Abstract

In the {\sc Hitting Set} problem, we are given a collection F\cal F of subsets of a ground set VV and an integer pp, and asked whether VV has a pp-element subset that intersects each set in F\cal F. We consider two parameterizations of {\sc Hitting Set} below tight upper bounds: p=mkp=m-k and p=nkp=n-k. In both cases kk is the parameter. We prove that the first parameterization is fixed-parameter tractable, but has no polynomial kernel unless coNP\subseteqNP/poly. The second parameterization is W[1]-complete, but the introduction of an additional parameter, the degeneracy of the hypergraph H=(V,F)H=(V,{\cal F}), makes the problem not only fixed-parameter tractable, but also one with a linear kernel. Here the degeneracy of H=(V,F)H=(V,{\cal F}) is the minimum integer dd such that for each XVX\subset V the hypergraph with vertex set VXV\setminus X and edge set containing all edges of F\cal F without vertices in XX, has a vertex of degree at most d.d. In {\sc Nonblocker} ({\sc Directed Nonblocker}), we are given an undirected graph (a directed graph) GG on nn vertices and an integer kk, and asked whether GG has a set XX of nkn-k vertices such that for each vertex y∉Xy\not\in X there is an edge (arc) from a vertex in XX to yy. {\sc Nonblocker} can be viewed as a special case of {\sc Directed Nonblocker} (replace an undirected graph by a symmetric digraph). Dehne et al. (Proc. SOFSEM 2006) proved that {\sc Nonblocker} has a linear-order kernel. We obtain a linear-order kernel for {\sc Directed Nonblocker}.

Keywords

Cite

@article{arxiv.1010.5881,
  title  = {Kernels for Below-Upper-Bound Parameterizations of the Hitting Set and Directed Dominating Set Problems},
  author = {Gregory Gutin and Mark Jones and Anders Yeo},
  journal= {arXiv preprint arXiv:1010.5881},
  year   = {2011}
}
R2 v1 2026-06-21T16:35:23.448Z