On the hardness of short and sign-compatible circuit walks

IF 1 3区数学 Q3 MATHEMATICS, APPLIED Discrete Applied Mathematics Pub Date : 2025-05-31 Epub Date: 2025-02-13 DOI:10.1016/j.dam.2025.02.009

Steffen Borgwardt , Weston Grewe , Sean Kafer , Jon Lee , Laura Sanità

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引用次数: 0

Abstract

The circuits of a polyhedron are a superset of its edge directions. Circuit walks, a sequence of steps along circuits, generalize edge walks and are “short” if they have few steps or small total length. Both interpretations of short are relevant to the theory and application of linear programming.

We study the hardness of several problems relating to the construction of short circuit walks. We establish that for a pair of vertices of a

0 / 1

-network-flow polytope, it is NP-complete to determine the length of a shortest circuit walk, even if we add the requirement that the walk must be sign-compatible. Our results also imply that determining the minimal number of circuits needed for a sign-compatible decomposition is NP-complete. Further, we show that it is NP-complete to determine the smallest total length (for

p

-norms

‖ \cdot ‖_{p}

1 < p \leq \infty

) of a circuit walk between a pair of vertices. One method to construct a short circuit walk is to pick up a correct facet at each step, which generalizes a non-revisiting walk. We prove that it is NP-complete to determine if there is a circuit direction that picks up a correct facet; in contrast, this problem can be solved in polynomial time for TU polyhedra.

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对短路和符号兼容电路的硬度进行了研究

多面体的电路是其边方向的超集。电路行走，沿着电路的一系列步骤，泛化边缘行走，如果它们的步骤很少或总长度较小，则称为“短”。short的两种解释都与线性规划的理论和应用有关。我们研究了与短路步道构造有关的几个问题的硬度。我们建立了对于0/1网络流多面体的一对顶点，即使我们增加了行走必须是符号兼容的要求，也可以确定最短电路行走的长度是np完全的。我们的结果也意味着确定符号兼容分解所需的最小电路数是np完全的。进一步，我们证明了在一对顶点之间确定电路行走的最小总长度（对于p-范数‖⋅‖p， 1<p≤∞）是np完全的。构造短路行走的一种方法是在每一步取一个正确的面，这推广了不重访行走。我们证明了是否存在拾取正确面的电路方向是np完全的；相反，对于TU多面体，该问题可以在多项式时间内解决。

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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来源期刊

Discrete Applied Mathematics 数学-应用数学

CiteScore

2.30

自引率

9.10%

发文量

422

审稿时长

4.5 months

期刊介绍： The aim of Discrete Applied Mathematics is to bring together research papers in different areas of algorithmic and applicable discrete mathematics as well as applications of combinatorial mathematics to informatics and various areas of science and technology. Contributions presented to the journal can be research papers, short notes, surveys, and possibly research problems. The "Communications" section will be devoted to the fastest possible publication of recent research results that are checked and recommended for publication by a member of the Editorial Board. The journal will also publish a limited number of book announcements as well as proceedings of conferences. These proceedings will be fully refereed and adhere to the normal standards of the journal. Potential authors are advised to view the journal and the open calls-for-papers of special issues before submitting their manuscripts. Only high-quality, original work that is within the scope of the journal or the targeted special issue will be considered.

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