English

Maximizing Monotone Submodular Functions over the Integer Lattice

Data Structures and Algorithms 2016-05-11 v2

Abstract

The problem of maximizing non-negative monotone submodular functions under a certain constraint has been intensively studied in the last decade. In this paper, we address the problem for functions defined over the integer lattice. Suppose that a non-negative monotone submodular function f:Z+nR+f:\mathbb{Z}_+^n \to \mathbb{R}_+ is given via an evaluation oracle. Assume further that ff satisfies the diminishing return property, which is not an immediate consequence of submodularity when the domain is the integer lattice. Given this, we design polynomial-time (11/eϵ)(1-1/e-\epsilon)-approximation algorithms for a cardinality constraint, a polymatroid constraint, and a knapsack constraint. For a cardinality constraint, we also provide a (11/eϵ)(1-1/e-\epsilon)-approximation algorithm with slightly worse time complexity that does not rely on the diminishing return property.

Keywords

Cite

@article{arxiv.1503.01218,
  title  = {Maximizing Monotone Submodular Functions over the Integer Lattice},
  author = {Tasuku Soma and Yuichi Yoshida},
  journal= {arXiv preprint arXiv:1503.01218},
  year   = {2016}
}
R2 v1 2026-06-22T08:43:54.681Z