作为二次分配问题的圆环晶格上的最小能量构型

IF 0.9 4区 数学 Q3 MATHEMATICS, APPLIED Discrete Optimization Pub Date : 2022-05-01 DOI:10.1016/j.disopt.2020.100612
Daniel Brosch, Etienne de Klerk
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引用次数: 2

摘要

我们考虑了二次分配问题(QAP)的三个已知界:特征值界、凸二次规划界和半定规划界。由于之前没有直接比较最后两个界,我们证明了SDP界比CQP界更强。然后,我们将这些应用于改进离散能量最小化问题的已知边界,该问题被重新表述为QAP,其目的是最小化环形网格上排斥粒子之间的势能。因此,我们能够证明粒子和网格尺寸的几种配置的最优性,补充了Bouman等人(2013)的早期结果。所讨论的半确定程序太大而无法在没有预处理的情况下解决,我们使用Permenter和Parrilo(2020)的对称约简方法来使SDP边界的计算成为可能。
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Minimum energy configurations on a toric lattice as a quadratic assignment problem

We consider three known bounds for the quadratic assignment problem (QAP): an eigenvalue, a convex quadratic programming (CQP), and a semidefinite programming (SDP) bound. Since the last two bounds were not compared directly before, we prove that the SDP bound is stronger than the CQP bound. We then apply these to improve known bounds on a discrete energy minimization problem, reformulated as a QAP, which aims to minimize the potential energy between repulsive particles on a toric grid. Thus we are able to prove optimality for several configurations of particles and grid sizes, complementing earlier results by Bouman et al. (2013). The semidefinite programs in question are too large to solve without pre-processing, and we use a symmetry reduction method by Permenter and Parrilo (2020) to make computation of the SDP bounds possible.

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来源期刊
Discrete Optimization
Discrete Optimization 管理科学-应用数学
CiteScore
2.10
自引率
9.10%
发文量
30
审稿时长
>12 weeks
期刊介绍: Discrete Optimization publishes research papers on the mathematical, computational and applied aspects of all areas of integer programming and combinatorial optimization. In addition to reports on mathematical results pertinent to discrete optimization, the journal welcomes submissions on algorithmic developments, computational experiments, and novel applications (in particular, large-scale and real-time applications). The journal also publishes clearly labelled surveys, reviews, short notes, and open problems. Manuscripts submitted for possible publication to Discrete Optimization should report on original research, should not have been previously published, and should not be under consideration for publication by any other journal.
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