Parameterized Approximation for Capacitated $d$-Hitting Set with Hard Capacities

October 28, 2024 Β· Declared Dead Β· πŸ› arXiv.org

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Authors Daniel Lokshtanov, Abhishek Sahu, Saket Saurabh, Vaishali Surianarayanan, Jie Xue arXiv ID 2410.20900 Category cs.DS: Data Structures & Algorithms Citations 2 Venue arXiv.org Last Checked 4 months ago
Abstract
The \textsc{Capacitated $d$-Hitting Set} problem involves a universe $U$ with a capacity function $\mathsf{cap}: U \rightarrow \mathbb{N}$ and a collection $\mathcal{A}$ of subsets of $U$, each of size at most $d$. The goal is to find a minimum subset $S \subseteq U$ and an assignment $Ο†: \mathcal{A} \rightarrow S$ such that for every $A \in \mathcal{A}$, $Ο†(A) \in A$, and for each $x \in U$, $|Ο†^{-1}(x)| \leq \mathsf{cap}(x)$. For $d=2$, this is known as \textsc{Capacitated Vertex Cover}. In the weighted variant, each element of $U$ has a positive integer weight, with the objective of finding a minimum-weight capacitated hitting set. Chuzhoy and Naor [SICOMP 2006] provided a factor-3 approximation for \textsc{Capacitated Vertex Cover} and showed that the weighted case lacks an $o(\log n)$-approximation unless $P=NP$. Kao and Wong [SODA 2017] later independently achieved a $d$-approximation for \textsc{Capacitated $d$-Hitting Set}, with no $d - Ξ΅$ improvements possible under the Unique Games Conjecture. Our main result is a parameterized approximation algorithm with runtime $\left(\frac{k}Ξ΅\right)^k 2^{k^{O(kd)}}(|U|+|\mathcal{A}|)^{O(1)}$ that either concludes no solution of size $\leq k$ exists or finds $S$ of size $\leq 4/3 \cdot k$ and weight at most $2+Ξ΅$ times the minimum weight for solutions of size $\leq k$. We further show that no FPT-approximation with factor $c > 1$ exists for unweighted \textsc{Capacitated $d$-Hitting Set} with $d \geq 3$, nor with factor $2 - Ξ΅$ for the weighted version, assuming the Exponential Time Hypothesis. These results extend to \textsc{Capacitated Vertex Cover} in multigraphs. Additionally, a variant of multi-dimensional \textsc{Knapsack} is shown hard to FPT-approximate within $2 - Ξ΅$.
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