约束满足问题的分数同态、Weisfeiler-Leman不变性和Sherali-Adams层次

Silvia Butti, V. Dalmau
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引用次数: 10

摘要

给定一对图$\textbf{A}$和$\textbf{B}$,确定从$\textbf{A}$到$\textbf{B}$是否存在同态或同构的问题引起了很多关注。虽然已知图同构是np完全的,但图同构问题的复杂性尚未完全被理解。图同构的一个著名的组合启发式方法是Weisfeiler-Leman检验及其高阶变体。另一方面,这两个问题都可以重新表述为整数规划,并且可以应用各种LP方法来获得仍然可以有效求解的高质量松弛。我们在更一般的情况下研究这些程序的所谓分数松弛,其中$\textbf{A}$和$\textbf{B}$不是图,而是任意关系结构。从分数同构的角度出发,给出了Sherali-Adams层次结构在同态问题中的组合表征。此外,我们还扩展了图论的一些已知结果,以给出关系结构的分数同构概念的表征,包括Weisfeiler-Leman检验、公平划分和从树中计数同态。在此基础上,通过Sherali-Adams层次的第一层次,我们得到了在Weisfeiler-Leman不变性下闭合的csp族的多态性和可判决性的描述。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fractional homomorphism, Weisfeiler-Leman invariance, and the Sherali-Adams hierarchy for the Constraint Satisfaction Problem
Given a pair of graphs $\textbf{A}$ and $\textbf{B}$, the problems of deciding whether there exists either a homomorphism or an isomorphism from $\textbf{A}$ to $\textbf{B}$ have received a lot of attention. While graph homomorphism is known to be NP-complete, the complexity of the graph isomorphism problem is not fully understood. A well-known combinatorial heuristic for graph isomorphism is the Weisfeiler-Leman test together with its higher order variants. On the other hand, both problems can be reformulated as integer programs and various LP methods can be applied to obtain high-quality relaxations that can still be solved efficiently. We study so-called fractional relaxations of these programs in the more general context where $\textbf{A}$ and $\textbf{B}$ are not graphs but arbitrary relational structures. We give a combinatorial characterization of the Sherali-Adams hierarchy applied to the homomorphism problem in terms of fractional isomorphism. Collaterally, we also extend a number of known results from graph theory to give a characterization of the notion of fractional isomorphism for relational structures in terms of the Weisfeiler-Leman test, equitable partitions, and counting homomorphisms from trees. As a result, we obtain a description of the families of CSPs that are closed under Weisfeiler-Leman invariance in terms of their polymorphisms as well as decidability by the first level of the Sherali-Adams hierarchy.
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