Proximity and Flatness Bounds for Linear Integer Optimization

IF 1.4 3区数学 Q2 MATHEMATICS, APPLIED

Mathematics of Operations Research Pub Date : 2023-12-01 DOI:10.1287/moor.2022.0335

Marcel Celaya, Stefan Kuhlmann, Joseph Paat, Robert Weismantel

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引用次数: 1

Abstract

This paper deals with linear integer optimization. We develop a technique that can be applied to provide improved upper bounds for two important questions in linear integer optimization. Given an optimal vertex solution for the linear relaxation, how far away is the nearest optimal integer solution (if one exists; proximity bounds)? If a polyhedron contains no integer point, what is the smallest number of integer parallel hyperplanes defined by an integral, nonzero, normal vector that intersect the polyhedron (flatness bounds)? This paper presents a link between these two questions by refining a proof technique that has been recently introduced by the authors. A key technical lemma underlying our technique concerns the areas of certain convex polygons in the plane; if a polygon [Formula: see text] satisfies [Formula: see text], where τ denotes [Formula: see text] counterclockwise rotation and [Formula: see text] denotes the polar of K, then the area of [Formula: see text] is at least three.Funding: J. Paat was supported by the Natural Sciences and Engineering Research Council of Canada [Grant RGPIN-2021-02475]. R. Weismantel was supported by the Einstein Stiftung Berlin.

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线性整数优化的邻近与平坦度界

本文研究线性整数优化问题。我们开发了一种技术，可以应用于线性整数优化中的两个重要问题提供改进的上界。给定线性松弛的最优顶点解，最近的最优整数解(如果存在;邻近范围)?如果多面体不包含整数点，由与多面体相交的非零法向量定义的整数平行超平面的最小数量是多少(平面边界)?本文通过改进作者最近介绍的一种证明技术，提出了这两个问题之间的联系。我们的技术背后的一个关键技术引理涉及平面上某些凸多边形的面积;如果一个多边形[公式:见文]满足[公式:见文]，其中τ表示[公式:见文]逆时针旋转，[公式:见文]表示K的极坐标，则[公式:见文]的面积至少为3。资助:J. Paat由加拿大自然科学与工程研究委员会资助[Grant RGPIN-2021-02475]。R. Weismantel得到了柏林爱因斯坦基金会的支持。

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来源期刊

Mathematics of Operations Research 管理科学-应用数学

CiteScore

3.40

自引率

5.90%

发文量

178

审稿时长

15.0 months

期刊介绍： Mathematics of Operations Research is an international journal of the Institute for Operations Research and the Management Sciences (INFORMS). The journal invites articles concerned with the mathematical and computational foundations in the areas of continuous, discrete, and stochastic optimization; mathematical programming; dynamic programming; stochastic processes; stochastic models; simulation methodology; control and adaptation; networks; game theory; and decision theory. Also sought are contributions to learning theory and machine learning that have special relevance to decision making, operations research, and management science. The emphasis is on originality, quality, and importance; correctness alone is not sufficient. Significant developments in operations research and management science not having substantial mathematical interest should be directed to other journals such as Management Science or Operations Research.