English

Independent Sets in Elimination Graphs with a Submodular Objective

Data Structures and Algorithms 2023-07-11 v2

Abstract

Maximum weight independent set (MWIS) admits a 1k\frac1k-approximation in inductively kk-independent graphs and a 12k\frac{1}{2k}-approximation in kk-perfectly orientable graphs. These are a a parameterized class of graphs that generalize kk-degenerate graphs, chordal graphs, and intersection graphs of various geometric shapes such as intervals, pseudo-disks, and several others. We consider a generalization of MWIS to a submodular objective. Given a graph G=(V,E)G=(V,E) and a non-negative submodular function f:2VR+f: 2^V \rightarrow \mathbb{R}_+, the goal is to approximately solve maxSIGf(S)\max_{S \in \mathcal{I}_G} f(S) where IG\mathcal{I}_G is the set of independent sets of GG. We obtain an Ω(1k)\Omega(\frac1k)-approximation for this problem in the two mentioned graph classes. The first approach is via the multilinear relaxation framework and a simple contention resolution scheme, and this results in a randomized algorithm with approximation ratio at least 1e(k+1)\frac{1}{e(k+1)}. This approach also yields parallel (or low-adaptivity) approximations. Motivated by the goal of designing efficient and deterministic algorithms, we describe two other algorithms for inductively kk-independent graphs that are inspired by work on streaming algorithms: a preemptive greedy algorithm and a primal-dual algorithm. In addition to being simpler and faster, these algorithms, in the monotone submodular case, yield the first deterministic constant factor approximations for various special cases that have been previously considered such as intersection graphs of intervals, disks and pseudo-disks.

Keywords

Cite

@article{arxiv.2307.02022,
  title  = {Independent Sets in Elimination Graphs with a Submodular Objective},
  author = {Chandra Chekuri and Kent Quanrud},
  journal= {arXiv preprint arXiv:2307.02022},
  year   = {2023}
}

Comments

Extended abstract to appear in Proceedings of APPROX 2023. v2 corrects technical typos in few places

R2 v1 2026-06-28T11:22:20.593Z