Max-Min and 1-Bounded Space Algorithms for the Bin Packing Problem

August 26, 2025 Β· Declared Dead Β· πŸ› Workshop on Approximation and Online Algorithms

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Authors Hiroshi Fujiwara, Rina Atsumi, Hiroaki Yamamoto arXiv ID 2508.18718 Category cs.DS: Data Structures & Algorithms Cross-listed cs.DM, math.CO, math.OC Citations 0 Venue Workshop on Approximation and Online Algorithms Last Checked 4 months ago
Abstract
In the (1-dimensional) bin packing problem, we are asked to pack all the given items into bins, each of capacity one, so that the number of non-empty bins is minimized. Zhu~[Chaos, Solitons \& Fractals 2016] proposed an approximation algorithm $MM$ that sorts the item sequence in a non-increasing order by size at the beginning, and then repeatedly packs, into the current single open bin, first as many of the largest items in the remaining sequence as possible and then as many of the smallest items in the remaining sequence as possible. In this paper we prove that the asymptotic approximation ratio of $MM$ is at most 1.5. Next, focusing on the fact that $MM$ is at the intersection of two algorithm classes, max-min algorithms and 1-bounded space algorithms, we comprehensively analyze the theoretical performance bounds of each subclass derived from the two classes. Our results include a lower bound of 1.25 for the intersection of the two classes. Furthermore, we extend the theoretical analysis over algorithm classes to the cardinality constrained bin packing problem.
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