稀疏图中独立集的Lovász θ函数

Proceedings of the forty-seventh annual ACM symposium on Theory of Computing Pub Date : 2015-04-18 DOI:10.1145/2746539.2746607

N. Bansal, Anupam Gupta, Guru Guruganesh

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引用次数: 28

摘要

我们考虑了最大度为d的图上的最大独立集问题。我们证明了基于Lovasz Theta函数的SDP的完整性缺口具有O~(d/log3/ 2d)的完整性缺口，这改进了之前的最佳结果O~(d/log d)，并将该基本SDP的完整性缺口缩小到最近显示的更强的SDP的完整性缺口O~(d/ log2d)，即使用SA+半确定层次的多log(d)层次获得的SDP。改进来自于对r值较大的无k图的独立性数的改进ramsey理论界。我们还展示了如何通过Johansson的着色算法获得上述基于sapplus的完整性间隙结果的算法版本。得到的近似保证O~(d/ log2d)与基于唯一博弈的最佳硬度结果匹配到低阶多(log log d)因子。

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On the Lovász Theta function for Independent Sets in Sparse Graphs

We consider the maximum independent set problem on graphs with maximum degree d. We show that the integrality gap of the Lovasz Theta function-based SDP has an integrality gap of O~(d/log3/2 d). This improves on the previous best result of O~(d/log d), and narrows the gap of this basic SDP to the integrality gap of O~(d/log2 d) recently shown for stronger SDPs, namely those obtained using poly log(d) levels of the SA+ semidefinite hierarchy. The improvement comes from an improved Ramsey-theoretic bound on the independence number of Kr-free graphs for large values of r. We also show how to obtain an algorithmic version of the above-mentioned SAplus-based integrality gap result, via a coloring algorithm of Johansson. The resulting approximation guarantee of O~(d/log2 d) matches the best unique-games-based hardness result up to lower-order poly (log log d) factors.

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Proceedings of the forty-seventh annual ACM symposium on Theory of Computing

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