Subexponential parameterized algorithms for graphs of polynomial growth

October 25, 2016 Β· Declared Dead Β· πŸ› Embedded Systems and Applications

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Authors DΓ‘niel Marx, Marcin Pilipczuk arXiv ID 1610.07778 Category cs.DS: Data Structures & Algorithms Citations 4 Venue Embedded Systems and Applications Last Checked 4 months ago
Abstract
We show that for a number of parameterized problems for which only $2^{O(k)} n^{O(1)}$ time algorithms are known on general graphs, subexponential parameterized algorithms with running time $2^{O(k^{1-\frac{1}{1+Ξ΄}} \log^2 k)} n^{O(1)}$ are possible for graphs of polynomial growth with growth rate (degree) $Ξ΄$, that is, if we assume that every ball of radius $r$ contains only $O(r^Ξ΄)$ vertices. The algorithms use the technique of low-treewidth pattern covering, introduced by Fomin et al. [FOCS 2016] for planar graphs; here we show how this strategy can be made to work for graphs with polynomial growth. Formally, we prove that, given a graph $G$ of polynomial growth with growth rate $Ξ΄$ and an integer $k$, one can in randomized polynomial time find a subset $A \subseteq V(G)$ such that on one hand the treewidth of $G[A]$ is $O(k^{1-\frac{1}{1+Ξ΄}} \log k)$, and on the other hand for every set $X \subseteq V(G)$ of size at most $k$, the probability that $X \subseteq A$ is $2^{-O(k^{1-\frac{1}{1+Ξ΄}} \log^2 k)}$. Together with standard dynamic programming techniques on graphs of bounded treewidth, this statement gives subexponential parameterized algorithms for a number of subgraph search problems, such as Long Path or Steiner Tree, in graphs of polynomial growth. We complement the algorithm with an almost tight lower bound for Long Path: unless the Exponential Time Hypothesis fails, no parameterized algorithm with running time $2^{k^{1-\frac{1}Ξ΄-\varepsilon}}n^{O(1)}$ is possible for any $\varepsilon > 0$ and an integer $Ξ΄\geq 3$.
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