Max Bannach, Sebastian Berndt, M. Maack, Matthias Mnich, Alexandra Lassota, M. Rau, Malte Skambath
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引用次数: 3
摘要
组合优化的一个重要领域是研究装箱和覆盖问题,如箱包、多背包和箱包问题。从近似算法的角度对这些问题进行了广泛的研究,但对其参数化复杂性的研究却很少。对于不包含“小”项的问题实例,经典匹配算法在多项式时间内产生最优解。在本文中,我们通过它们与琐碎的距离来接近它们,通过小项目的数量来衡量问题的复杂性。我们的主要成果是用$k$参数化的Bin Packing、Multiple backpack和Bin coverage的矢量版本的固定参数算法。这些算法是随机化的,具有单侧误差,运行时间为$4^{k} \cdot k!\ cdot n ^ {O(1)} $。为了实现这一点,我们引入了一个颜色匹配问题,我们减少了所有这些包装问题。颜色匹配问题本身是很自然的,我们希望它对其他应用有用。我们还给出了运行时间为$(k!)^{2}\cdot k \cdot 2^{k}\cdot n\cdot \log(n)$的Bin Packing的确定性固定参数。
Solving Packing Problems with Few Small Items Using Rainbow Matchings
An important area of combinatorial optimization is the study of packing and covering problems, such as Bin Packing, Multiple Knapsack, and Bin Covering. Those problems have been studied extensively from the viewpoint of approximation algorithms, but their parameterized complexity has only been investigated barely. For problem instances containing no "small" items, classical matching algorithms yield optimal solutions in polynomial time. In this paper we approach them by their distance from triviality, measuring the problem complexity by the number $k$ of small items.
Our main results are fixed-parameter algorithms for vector versions of Bin Packing, Multiple Knapsack, and Bin Covering parameterized by $k$. The algorithms are randomized with one-sided error and run in time $4^{k} \cdot k! \cdot n^{O(1)}$. To achieve this, we introduce a colored matching problem to which we reduce all these packing problems. The colored matching problem is natural in itself and we expect it to be useful for other applications. We also present a deterministic fixed-parameter for Bin Packing with run time $(k!)^{2}\cdot k \cdot 2^{k}\cdot n\cdot \log(n)$.
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