A Tight Bound for Stochastic Submodular Cover
Abstract
We show that the Adaptive Greedy algorithm of Golovin and Krause (2011) achieves an approximation bound of for Stochastic Submodular Cover: here is the "goal value" and is the smallest non-zero marginal increase in utility deliverable by an item. (For integer-valued utility functions, we show a bound of , where is the Harmonic number.) Although this bound was claimed by Golovin and Krause in the original version of their paper, the proof was later shown to be incorrect by Nan and Saligrama (2017). The subsequent corrected proof of Golovin and Krause (2017) gives a quadratic bound of . Other previous bounds for the problem are , implied by work of Im et al. (2016) on a related problem, and , due to Deshpande et al. (2016) and Hellerstein and Kletenik (2018), where is the number of states. Our bound generalizes the well-known approximation bound on the greedy algorithm for the classical Set Cover problem, where is the size of the ground set.
Keywords
Cite
@article{arxiv.2102.01149,
title = {A Tight Bound for Stochastic Submodular Cover},
author = {Lisa Hellerstein and Devorah Kletenik and Srinivasan Parthasarathy},
journal= {arXiv preprint arXiv:2102.01149},
year = {2021}
}
Comments
This work extends the result of Srinivasan Parthasarathy in his paper arXiv:1803.07639 from the problem of Stochastic Set Cover to that of Stochastic Submodular Cover