Go to CORR 2018 homepageAlgorithmic Meta-Theorems for Monotone Submodular Maximization
Abstract: We consider a monotone submodular maximization problem whose constraint is described by a logic formula on a graph. Formally, we prove the following three `algorithmic metatheorems.' (1) If the constraint is specified by a monadic second-order logic on a graph of bounded treewidth, the problem is solved in $n^{O(1)}$ time with an approximation factor of $O(\log n)$. (2) If the constraint is specified by a first-order logic on a graph of low degree, the problem is solved in $O(n^{1 + \epsilon})$ time for any $\epsilon > 0$ with an approximation factor of $2$. (3) If the constraint is specified by a first-order logic on a graph of bounded expansion, the problem is solved in $n^{O(\log k)}$ time with an approximation factor of $O(\log k)$, where $k$ is the number of variables and $O(\cdot)$ suppresses only constants independent of $k$.
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