Simple Deterministic Approximation for Submodular Multiple Knapsack Problem

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Authors Xiaoming Sun, Jialin Zhang, Zhijie Zhang arXiv ID 2003.11450 Category cs.DS: Data Structures & Algorithms Citations 3 Venue Embedded Systems and Applications Last Checked 4 months ago
Abstract
Submodular maximization has been a central topic in theoretical computer science and combinatorial optimization over the last decades. Plenty of well-performed approximation algorithms have been designed for the problem over a variety of constraints. In this paper, we consider the submodular multiple knapsack problem (SMKP). In SMKP, the profits of each subset of elements are specified by a monotone submodular function. The goal is to find a feasible packing of elements over multiple bins (knapsacks) to maximize the profit. Recently, Fairstein et al.~[ESA20] proposed a nearly optimal $(1-e^{-1}-Ξ΅)$-approximation algorithm for SMKP. Their algorithm is obtained by combining configuration LP, a grouping technique for bin packing, and the continuous greedy algorithm for submodular maximization. As a result, the algorithm is somewhat sophisticated and inherently randomized. In this paper, we present an arguably simple deterministic combinatorial algorithm for SMKP, which achieves a $(1-e^{-1}-Ξ΅)$-approximation ratio. Our algorithm is based on very different ideas compared with Fairstein et al.~[ESA20].
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