On the Parameterized Complexity of Eulerian Strong Component Arc Deletion

arXiv - CS - Data Structures and Algorithms Pub Date : 2024-08-25 DOI:arxiv-2408.13819

Václav Blažej, Satyabrata Jana, M. S. Ramanujan, Peter Strulo

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Abstract

In this paper, we study the Eulerian Strong Component Arc Deletion problem, where the input is a directed multigraph and the goal is to delete the minimum number of arcs to ensure every strongly connected component of the resulting digraph is Eulerian. This problem is a natural extension of the Directed Feedback Arc Set problem and is also known to be motivated by certain scenarios arising in the study of housing markets. The complexity of the problem, when parameterized by solution size (i.e., size of the deletion set), has remained unresolved and has been highlighted in several papers. In this work, we answer this question by ruling out (subject to the usual complexity assumptions) a fixed-parameter tractable (FPT) algorithm for this parameter and conduct a broad analysis of the problem with respect to other natural parameterizations. We prove both positive and negative results. Among these, we demonstrate that the problem is also hard (W[1]-hard or even para-NP-hard) when parameterized by either treewidth or maximum degree alone. Complementing our lower bounds, we establish that the problem is in XP when parameterized by treewidth and FPT when parameterized either by both treewidth and maximum degree or by both treewidth and solution size. We show that these algorithms have near-optimal asymptotic dependence on the treewidth assuming the Exponential Time Hypothesis.

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论欧拉强成分弧删除的参数化复杂性

在本文中，我们研究了欧拉强连接组件弧删除问题，该问题的输入是有向多图，目标是删除最少数量的弧，以确保所得多图的每个强连接组件都是欧拉的。这个问题是有向反馈弧集问题的自然延伸，也是住房市场研究中出现的某些情景所激发的。以解的大小（即删除集的大小）为参数时，该问题的复杂性一直悬而未决，多篇论文对此进行了强调。在这项研究中，我们回答了这个问题，（根据通常的复杂度假设）排除了针对该参数的固定参数可处理（FPT）算法，并针对其他自然参数化对该问题进行了国外分析。其中，我们证明了仅以树宽或最大度为参数时，该问题也很困难（W[1]-hard 或甚至 para-NP-hard ）。作为对下界的补充，我们证明了当以树宽为参数时，该问题处于 XP 阶段；当以树宽和最大度或以树宽和解大小为参数时，该问题处于 FPT 阶段。我们证明，假设指数时间假说，这些算法与树宽具有近乎最优的渐近相关性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - CS - Data Structures and Algorithms

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