关于超大球体和胖物体的包与打包问题的近似方案框架

Vítor Gomes Chagas, Elisa Dell'Arriva, Flávio Keidi Miyazawa
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摘要

几个世纪以来,数学界一直在研究几何堆积问题。相比之下,近似算法领域关于球形堆积的研究成果却很少。大多数结果都是针对正方形和长方形及其二维对应物的。为了帮助填补这一空白,我们提出了一个框架,它能为几何包问题、其他打包问题和一些广义问题提供近似方案,而且不仅支持超球体,还支持各种形状的物品和箱体。我们的第一个成果是超球多重knapsack问题的PTAS。事实上,我们可以处理该问题的更广义版本,其中包含对物品的附加约束。在某些条件下,这些约束可以包括非常常见和相关的约束,如冲突约束、多选约束和容量约束。我们的第二项成果是针对多种凸胖对象的多重背包问题的资源扩充方案,这些对象并不局限于多边形和多面体。例如椭圆体、菱形、超立方体、Lp 规范下的超球等。此外,对于广义版的多重knapsack问题,我们的技术在资源增强条件下仍能对这些对象产生PTAS。第三,我们改进了胖对象的资源增强方案,允许对象以任意角度旋转。这一结果尤其为我们的框架带来了一些额外的东西,因为大多数包含此类一般对象的结果都仅限于平移。最后,我们的框架还可以考虑其他问题,如切割库存问题、最小尺寸箱包装问题和多条包装问题。
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A Framework for Approximation Schemes on Knapsack and Packing Problems of Hyperspheres and Fat Objects
Geometric packing problems have been investigated for centuries in mathematics. In contrast, works on sphere packing in the field of approximation algorithms are scarce. Most results are for squares and rectangles, and their d-dimensional counterparts. To help fill this gap, we present a framework that yields approximation schemes for the geometric knapsack problem as well as other packing problems and some generalizations, and that supports not only hyperspheres but also a wide range of shapes for the items and the bins. Our first result is a PTAS for the hypersphere multiple knapsack problem. In fact, we can deal with a more generalized version of the problem that contains additional constraints on the items. These constraints, under some conditions, can encompass very common and pertinent constraints such as conflict constraints, multiple-choice constraints, and capacity constraints. Our second result is a resource augmentation scheme for the multiple knapsack problem for a wide range of convex fat objects, which are not restricted to polygons and polytopes. Examples are ellipsoids, rhombi, hypercubes, hyperspheres under the Lp-norm, etc. Also, for the generalized version of the multiple knapsack problem, our technique still yields a PTAS under resource augmentation for these objects. Thirdly, we improve the resource augmentation schemes of fat objects to allow rotation on the objects by any angle. This result, in particular, brings something extra to our framework, since most results comprising such general objects are limited to translations. At last, our framework is able to contemplate other problems such as the cutting stock problem, the minimum-size bin packing problem and the multiple strip packing problem.
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