Accelerated Relax-and-Round for Concave Coverage Problems
Abstract
We present an accelerated relax-and-round algorithm for concave coverage problems, which generalize the classic maximum coverage problem. Building on the relax-and-round framework of Barman et al. [STACS 2021], we propose two significant improvements. First, we replace the linear programming (LP) relaxation step with a projected accelerated gradient method applied to a smooth surrogate objective to achieve a running time. Second, we use a specialized rounding scheme for the hypersimplex that combines the Carath\'eodory decomposition algorithm in Karalias et al. [NeurIPS 2025] with randomized swap rounding of Chekuri et al. [FOCS 2010]. We prove tight approximation ratios for new reward functions, including a -approximation for the logarithmic reward . Finally, we conduct maximum multi-coverage experiments on synthetic and real-world graphs, demonstrating that our algorithm outperforms approaches that use state-of-the-art LP solvers.
Cite
@article{arxiv.2605.06900,
title = {Accelerated Relax-and-Round for Concave Coverage Problems},
author = {Matthew Fahrbach and Mehraneh Liaee and Morteza Zadimoghaddam},
journal= {arXiv preprint arXiv:2605.06900},
year = {2026}
}
Comments
47 pages, 6 figures