APPROX'11/RANDOM'11 Proceedings of the 14th international workshop and 15th international conference on Approximation, randomization, and combinatorial optimization: algorithms and techniques
Linear index coding via semidefinite programming
Proceedings of the twenty-third annual ACM-SIAM symposium on Discrete Algorithms
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In this work, we study approximation algorithms based on semidefinite programming (SDP) for which the performance guarantee involves a non-local analysis, and in some instances a non-local SDP relaxation. We examine two such approaches. The first of these is inspired by recent work of Arora, Rao and Vazirani on Sparsest Cut. Using a geometric intuition similar to theirs, we give an algorithm for coloring 3-colorable graphs which is nearly identical to that of Blum and Karger, and finds a legal coloring which uses roughly O(n0.2130) as opposed to the original O(n0.2143 ) guarantee in that paper. The second approach makes use of SDP hierarchies, on which prior work has yielded mostly negative results. Using this method, we give an algorithm for coloring 3-colorable graphs which finds a legal O( n0.2072)-coloring. As an additional application of this approach, in 3-uniform hypergraphs containing an independent set of size γn (for any constant γ 0), we describe an algorithm which finds an independent set of size nWg2 using the Θ(1/γ2)-level of an SDP hierarchy. We also present integrality gaps for this hierarchy which imply improved performance guarantees as one uses progressively higher-level SDP relaxations.