Width Helps and Hinders Splitting Flows

IF 0.9 3区 计算机科学 Q3 COMPUTER SCIENCE, THEORY & METHODS ACM Transactions on Algorithms Pub Date : 2024-01-22 DOI:10.1145/3641820
Manuel Cáceres, Massimo Cairo, Andreas Grigorjew, Shahbaz Khan, Brendan Mumey, Romeo Rizzi, Alexandru I. Tomescu, Lucia Williams
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Abstract

Minimum flow decomposition (MFD) is the NP-hard problem of finding a smallest decomposition of a network flow/circulation X on a directed graph G into weighted source-to-sink paths whose weighted sum equals X. We show that, for acyclic graphs, considering the width of the graph (the minimum number of paths needed to cover all of its edges) yields advances in our understanding of its approximability. For the version of the problem that uses only non-negative weights, we identify and characterise a new class of width-stable graphs, for which a popular heuristic is a O(log Val(X))-approximation (Val(X) being the total flow of X), and strengthen its worst-case approximation ratio from \(\Omega (\sqrt {m}) \) to Ω(m/log m) for sparse graphs, where m is the number of edges in the graph. We also study a new problem on graphs with cycles, Minimum Cost Circulation Decomposition (MCCD), and show that it generalises MFD through a simple reduction. For the version allowing also negative weights, we give a (⌈log ‖X‖⌉ + 1)-approximation (‖X‖ being the maximum absolute value of X on any edge) using a power-of-two approach, combined with parity fixing arguments and a decomposition of unitary circulations (‖X‖ ≤ 1), using a generalised notion of width for this problem. Finally, we disprove a conjecture about the linear independence of minimum (non-negative) flow decompositions posed by [17], but show that its useful implication (polynomial-time assignments of weights to a given set of paths to decompose a flow) holds for the negative version.

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宽度对分流的帮助和阻碍
最小流量分解(MFD)是一个 NP 难问题,即在有向图 G 上找到网络流量/循环 X 的最小分解,将其分解为加权和等于 X 的加权源到汇路径。我们的研究表明,对于非循环图,考虑图的宽度(覆盖其所有边所需的最小路径数)将有助于我们理解图的近似性。对于只使用非负权重的问题版本,我们识别并描述了一类新的宽度稳定图,对于这类图,一种流行的启发式是 O(log Val(X))-近似(Val(X) 是 X 的总流量),并且对于稀疏图(其中 m 是图中的边数),其最坏情况近似率从\(\Omega (\sqrt {m}) \)提高到了Ω(m/log m)。我们还研究了有循环图上的一个新问题--最小成本循环分解(MCCD),并证明它通过一个简单的简化概括了 MFD。对于允许负权重的版本,我们使用二乘幂方法给出了 (⌈log ‖X‖⌉ + 1) 近似值(‖X‖是 X 在任意边上的最大绝对值)、结合奇偶性固定论证和单元循环分解(‖X‖ ≤ 1),使用该问题的广义宽度概念。最后,我们推翻了[17]提出的关于最小(非负)流分解的线性独立性的猜想,但证明其有用的含义(多项式时间给定路径集分配权重以分解流)在负版本中成立。
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来源期刊
ACM Transactions on Algorithms
ACM Transactions on Algorithms COMPUTER SCIENCE, THEORY & METHODS-MATHEMATICS, APPLIED
CiteScore
3.30
自引率
0.00%
发文量
50
审稿时长
6-12 weeks
期刊介绍: ACM Transactions on Algorithms welcomes submissions of original research of the highest quality dealing with algorithms that are inherently discrete and finite, and having mathematical content in a natural way, either in the objective or in the analysis. Most welcome are new algorithms and data structures, new and improved analyses, and complexity results. Specific areas of computation covered by the journal include combinatorial searches and objects; counting; discrete optimization and approximation; randomization and quantum computation; parallel and distributed computation; algorithms for graphs, geometry, arithmetic, number theory, strings; on-line analysis; cryptography; coding; data compression; learning algorithms; methods of algorithmic analysis; discrete algorithms for application areas such as biology, economics, game theory, communication, computer systems and architecture, hardware design, scientific computing
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