English

Kernel(s) for Problems With no Kernel: On Out-Trees With Many Leaves

Data Structures and Algorithms 2008-11-06 v2 Computational Complexity

Abstract

The {\sc kk-Leaf Out-Branching} problem is to find an out-branching (i.e. a rooted oriented spanning tree) with at least kk leaves in a given digraph. The problem has recently received much attention from the viewpoint of parameterized algorithms {alonLNCS4596,AlonFGKS07fsttcs,BoDo2,KnLaRo}. In this paper we step aside and take a kernelization based approach to the {\sc kk-Leaf-Out-Branching} problem. We give the first polynomial kernel for {\sc Rooted kk-Leaf-Out-Branching}, a variant of {\sc kk-Leaf-Out-Branching} where the root of the tree searched for is also a part of the input. Our kernel has cubic size and is obtained using extremal combinatorics. For the {\sc kk-Leaf-Out-Branching} problem we show that no polynomial kernel is possible unless polynomial hierarchy collapses to third level %PH=Σp3PH=\Sigma_p^3 by applying a recent breakthrough result by Bodlaender et al. {BDFH08} in a non-trivial fashion. However our positive results for {\sc Rooted kk-Leaf-Out-Branching} immediately imply that the seemingly intractable the {\sc kk-Leaf-Out-Branching} problem admits a data reduction to nn independent O(k3)O(k^3) kernels. These two results, tractability and intractability side by side, are the first separating {\it many-to-one kernelization} from {\it Turing kernelization}. This answers affirmatively an open problem regarding "cheat kernelization" raised in {IWPECOPEN08}.

Keywords

Cite

@article{arxiv.0810.4796,
  title  = {Kernel(s) for Problems With no Kernel: On Out-Trees With Many Leaves},
  author = {Henning Fernau and Fedor V. Fomin and Daniel Lokshtanov and Daniel Raible and Saket Saurabh and Yngve Villanger},
  journal= {arXiv preprint arXiv:0810.4796},
  year   = {2008}
}
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