On the parameterized complexity of computing good edge-labelings

arXiv - CS - Data Structures and Algorithms Pub Date : 2024-08-27 DOI:arxiv-2408.15181

Davi de Andrade, Júlio Araújo, Laure Morelle, Ignasi Sau, Ana Silva

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Abstract

A good edge-labeling (gel for short) of a graph $G$ is a function $\lambda: E(G) \to \mathbb{R}$ such that, for any ordered pair of vertices $(x, y)$ of $G$, there do not exist two distinct increasing paths from $x$ to $y$, where ``increasing'' means that the sequence of labels is non-decreasing. This notion was introduced by Bermond et al. [Theor. Comput. Sci. 2013] motivated by practical applications arising from routing and wavelength assignment problems in optical networks. Prompted by the lack of algorithmic results about the problem of deciding whether an input graph admits a gel, called GEL, we initiate its study from the viewpoint of parameterized complexity. We first introduce the natural version of GEL where one wants to use at most $c$ distinct labels, which we call $c$-GEL, and we prove that it is NP-complete for every $c \geq 2$ on very restricted instances. We then provide several positive results, starting with simple polynomial kernels for GEL and $c$-\GEL parameterized by neighborhood diversity or vertex cover. As one of our main technical contributions, we present an FPT algorithm for GEL parameterized by the size of a modulator to a forest of stars, based on a novel approach via a 2-SAT formulation which we believe to be of independent interest. We also present FPT algorithms based on dynamic programming for $c$-GEL parameterized by treewidth and $c$, and for GEL parameterized by treewidth and the maximum degree. Finally, we answer positively a question of Bermond et al. [Theor. Comput. Sci. 2013] by proving the NP-completeness of a problem strongly related to GEL, namely that of deciding whether an input graph admits a so-called UPP-orientation.

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关于计算良好边缘标记的参数化复杂性

图$G$的良好边标签（简称 "gel"）是一个函数$\lambda:E(G) \to \mathbb{R}$，对于图$G$的任意有序顶点对$(x, y)$，不存在两条从$x$到$y$的不同递增路径，其中 "递增 "指标签序列不递减。这一概念是由 Bermond 等人[Theor. Comput. Sci. 2013]在光网络中路由和波长分配问题的实际应用中提出的。由于缺乏关于决定输入图是否允许凝胶（称为 GEL）问题的算法结果，我们从参数化复杂性的角度开始了对该问题的研究。我们首先介绍了 GEL 的自然版本，即我们希望使用最多 $c$ 的不同标签，我们称其为 $c$-GEL，并证明它在非常有限的实例上是 NP-complete forever $c \geq 2$。然后，我们提供了几个积极的结果，首先是 GEL 和 $c$-\GEL 的简单多项式内核，并以邻域多样性或顶点覆盖为参数。作为我们的主要技术贡献之一，我们提出了以调制器大小为参数的 GEL 的 FPT 算法，该算法基于我们认为具有独立意义的 2-SAT 表述的新方法。我们还提出了基于动态编程的 FPT 算法，适用于以树宽和 $c$ 为参数的 $c$-GEL 以及以树宽和最大度为参数的 GEL。最后，我们正面回答了 Bermond 等人[Theor.Comput.Sci. 2013]提出的问题，证明了一个与 GEL 密切相关的问题的 NP 完备性，即决定输入图是否允许所谓的 UPP-orientation 的问题。

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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