Bounds on Double-Sided Myopic Algorithms for Unconstrained Non-monotoneSubmodular Maximization

Unconstrained submodular maximization captures many NP-hard combinatorial optimization problems, including Max-Cut, Max-Di-Cut, and variants of facility lo-cation problems. Recently, Buchbinder et al. [8] presented a surprisingly simple linear time randomized greedy-like online algorithm that achieves a constant ap-proximation ratio of 12, matching optimally the hardness result of Feige et al. [19]. Motivated by the algorithm of Buchbinder et al., we introduce a precise algorithmic model called double-sided myopic algorithms. We show that while the algorithm of Buchbinder et al. can be realized as a randomized online double-sided myopic al-gorithm, no such deterministic algorithm, even with adaptive ordering, can achieve the same approximation ratio. With respect to the Max-Di-Cut problem, we relate the Buchbinder et al. algorithm and our myopic framework to the online algorithm and inapproximation of Bar-Noy and Lampis [6].

LIPIcs, Volume 261, ICALP 2023, Complete Volume

LIPIcs, Volume 261, ICALP 2023, Complete Volum