Robust static and dynamic maximum flows

IF 0.9 4区数学 Q4 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS

Journal of Combinatorial Optimization Pub Date : 2025-05-25 DOI:10.1007/s10878-025-01298-z

Christian Biefel, Martina Kuchlbauer, Frauke Liers, Lisa Waldmüller

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引用次数: 0

Abstract

We study the robust maximum flow problem and the robust maximum flow over time problem where a given number of arcs \(\Gamma \) may fail or may be delayed. Two prominent models have been introduced for these problems: either one assigns flow to arcs fulfilling weak flow conservation in any scenario, or one assigns flow to paths where an arc failure or delay affects a whole path. We provide a unifying framework by presenting novel general models, in which we assign flow to subpaths. These models contain the known models as special cases and unify their advantages in order to obtain less conservative robust solutions.

We give a thorough analysis with respect to complexity of the general models. In particular, we show that the general models are essentially NP-hard, whereas, e.g., in the static case with \(\Gamma =1\) an optimal solution can be computed in polynomial time. Further, we answer the open question about the complexity of the dynamic path model for \(\Gamma =1\). We also compare the solution quality of the different models. In detail, we show that the general models have better robust optimal values than the known models and we prove bounds on these gaps.

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稳健的静态和动态最大流量

我们研究了鲁棒最大流问题和鲁棒最大流随时间问题，其中给定数量的弧\(\Gamma \)可能失效或可能延迟。针对这些问题，有两种重要的模型：一种是将流量分配给在任何情况下满足弱流守恒的弧线，另一种是将流量分配给弧线失效或延迟影响整个路径的路径。我们通过提出新的通用模型提供了一个统一的框架，其中我们将流分配给子路径。这些模型包含已知模型作为特例，并统一它们的优点，以获得保守性较小的鲁棒解。我们对一般模型的复杂性作了全面的分析。特别是，我们证明了一般模型本质上是np困难的，然而，例如，在\(\Gamma =1\)的静态情况下，最优解可以在多项式时间内计算出来。此外，我们回答了关于\(\Gamma =1\)动态路径模型复杂性的开放性问题。我们还比较了不同模型的解质量。详细地，我们证明了一般模型比已知模型具有更好的鲁棒最优值，并证明了这些间隙的界。

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

Journal of Combinatorial Optimization 数学-计算机：跨学科应用

CiteScore

2.00

自引率

10.00%

发文量

审稿时长

6 months

期刊介绍： The objective of Journal of Combinatorial Optimization is to advance and promote the theory and applications of combinatorial optimization, which is an area of research at the intersection of applied mathematics, computer science, and operations research and which overlaps with many other areas such as computation complexity, computational biology, VLSI design, communication networks, and management science. It includes complexity analysis and algorithm design for combinatorial optimization problems, numerical experiments and problem discovery with applications in science and engineering. The Journal of Combinatorial Optimization publishes refereed papers dealing with all theoretical, computational and applied aspects of combinatorial optimization. It also publishes reviews of appropriate books and special issues of journals.