A 2-approximation for the bounded treewidth sparsest cut problem in $$\textsf{FPT}$$ Time

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-01-04 DOI:10.1007/s10107-023-02044-1
Vincent Cohen-Addad, Tobias Mömke, Victor Verdugo
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Abstract

In the non-uniform sparsest cut problem, we are given a supply graph G and a demand graph D, both with the same set of nodes V. The goal is to find a cut of V that minimizes the ratio of the total capacity on the edges of G crossing the cut over the total demand of the crossing edges of D. In this work, we study the non-uniform sparsest cut problem for supply graphs with bounded treewidth k. For this case, Gupta et al. (ACM STOC, 2013) obtained a 2-approximation with polynomial running time for fixed k, and it remained open the question of whether there exists a c-approximation algorithm for a constant c independent of k, that runs in \(\textsf{FPT}\) time. We answer this question in the affirmative. We design a 2-approximation algorithm for the non-uniform sparsest cut with bounded treewidth supply graphs that runs in \(\textsf{FPT}\) time, when parameterized by the treewidth. Our algorithm is based on rounding the optimal solution of a linear programming relaxation inspired by the Sherali-Adams hierarchy. In contrast to the classic Sherali-Adams approach, we construct a relaxation driven by a tree decomposition of the supply graph by including a carefully chosen set of lifting variables and constraints to encode information of subsets of nodes with super-constant size, and at the same time we have a sufficiently small linear program that can be solved in \(\textsf{FPT}\) time.

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$$\textsf{FPT}$$时间内有界树宽稀疏切割问题的2次近似值
在非均匀最疏剪切问题中,我们给定了一个供应图 G 和一个需求图 D,两者都有相同的节点集 V。我们的目标是找到 V 的一个剪切点,该剪切点能使 G 的交叉边上的总容量与 D 的交叉边上的总需求之比最小化。在这项工作中,我们将研究具有有界树宽 k 的供应图的非均匀最疏剪切问题。对于这种情况,Gupta 等人(ACM STOC,2013 年)在固定 k 的情况下获得了运行时间为多项式的 2-approximation 算法,而对于与 k 无关的常数 c,是否存在一种运行时间为 \(\textsf{FPT}\) 的 c-approximation 算法,这个问题仍然悬而未决。我们的回答是肯定的。我们为具有有界树宽的非均匀最疏剪切供应图设计了一种 2-approximation 算法,当以树宽为参数时,该算法能在\(\textsf{FPT}\) 时间内运行。我们的算法基于对受 Sherali-Adams 层次结构启发的线性规划松弛的最优解进行舍入。与经典的 Sherali-Adams 方法不同的是,我们构建了一种由供应图的树形分解驱动的松弛,包括精心选择的一组提升变量和约束条件,以编码具有超常大小的节点子集的信息,同时我们有一个足够小的线性规划,可以在 \ (\textsf{FPT}\)时间内求解。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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