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An Almost Quadratic Vertex Kernel for Subset Feedback Arc Set in Tournaments

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arxiv 2503.10447 v1 pith:DUXXQ7F7 submitted 2025-03-13 cs.DS

An Almost Quadratic Vertex Kernel for Subset Feedback Arc Set in Tournaments

classification cs.DS
keywords subset-fastkernelproblemapproximationsubseteqtournamentvertexwhose
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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In the Feedback Arc Set in Tournaments (Subset-FAST) problem, we are given a tournament $D$ and a positive integer $k$, and the objective is to determine whether there exists an arc set $S \subseteq A(D)$ of size at most $k$ whose removal makes the graph acyclic. This problem is well-known to be equivalent to a natural tournament ranking problem, whose task is to rank players in a tournament such that the number of pairs in which the lower-ranked player defeats the higher-ranked player is no more than $k$. Using the PTAS for Subset-FAST [STOC 2007], Bessy et al. [JCSS 2011] present a $(2 + \varepsilon)k$-vertex kernel for this problem, given any fixed $\varepsilon > 0$. A generalization of Subset-FAST, called Subset-FAST, further includes an additional terminal subset $T \subseteq V(D)$ in the input. The goal of Subset-FAST is to determine whether there is an arc set $S \subseteq A(D)$ of size at most $k$ whose removal ensures that no directed cycle passes through any terminal in $T$. Prior to our work, no polynomial kernel for Subset-FAST was known. In our work, we show that Subset-FAST admits an $\mathcal{O}((\alpha k)^{2})$-vertex kernel, provided that Subset-FAST has an approximation algorithm with an approximation ratio $\alpha$. Consequently, based on the known $\mathcal{O}(\log k \log \log k)$-approximation algorithm, we obtain an almost quadratic kernel for Subset-FAST.

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