Ruling out FPT algorithms for Weighted Coloring on forests
March 28, 2017 Β· Declared Dead Β· π Electron. Notes Discret. Math.
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Authors
JΓΊlio AraΓΊjo, Julien Baste, Ignasi Sau
arXiv ID
1703.09726
Category
cs.DS: Data Structures & Algorithms
Cross-listed
cs.CC,
math.CO
Citations
4
Venue
Electron. Notes Discret. Math.
Last Checked
4 months ago
Abstract
Given a graph $G$, a proper $k$-coloring of $G$ is a partition $c = (S_i)_{i\in [1,k]}$ of $V(G)$ into $k$ stable sets $S_1,\ldots, S_{k}$. Given a weight function $w: V(G) \to \mathbb{R}^+$, the weight of a color $S_i$ is defined as $w(i) = \max_{v \in S_i} w(v)$ and the weight of a coloring $c$ as $w(c) = \sum_{i=1}^{k}w(i)$. Guan and Zhu [Inf. Process. Lett., 1997] defined the weighted chromatic number of a pair $(G,w)$, denoted by $Ο(G,w)$, as the minimum weight of a proper coloring of $G$. For a positive integer $r$, they also defined $Ο(G,w;r)$ as the minimum of $w(c)$ among all proper $r$-colorings $c$ of $G$. The complexity of determining $Ο(G,w)$ when $G$ is a tree was open for almost 20 years, until AraΓΊjo et al. [SIAM J. Discrete Math., 2014] recently proved that the problem cannot be solved in time $n^{o(\log n)}$ on $n$-vertex trees unless the Exponential Time Hypothesis (ETH) fails. The objective of this article is to provide hardness results for computing $Ο(G,w)$ and $Ο(G,w;r)$ when $G$ is a tree or a forest, relying on complexity assumptions weaker than the ETH. Namely, we study the problem from the viewpoint of parameterized complexity, and we assume the weaker hypothesis $FPT \neq W[1]$. Building on the techniques of AraΓΊjo et al., we prove that when $G$ is a forest, computing $Ο(G,w)$ is $W[1]$-hard parameterized by the size of a largest connected component of $G$, and that computing $Ο(G,w;r)$ is $W[2]$-hard parameterized by $r$. Our results rule out the existence of $FPT$ algorithms for computing these invariants on trees or forests for many natural choices of the parameter.
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