Simeon Kublenz scite author profile

We show that the dominating set problem admits a constant factor approximation in a constant number of rounds in the LOCAL model of distributed computing on graph classes with bounded expansion. This generalizes a result of Czygrinow et al. for graphs with excluded topological minors to very general classes of uniformly sparse graphs. We demonstrate how our general algorithm can be modified and fine-tuned to compute an (11 + ) -approximation (for any > 0) of a minimum dominating set on planar graphs. This improves on the previously best known approximation factor of 52 on planar graphs, which was achieved by an elegant and simple algorithm of Lenzen et al.

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Simeon Kublenz

Constant round distributed domination on graph classes with bounded expansion

Constant Round Distributed Domination on Graph Classes with Bounded Expansion

Distributed domination on sparse graph classes

Distributed domination on sparse graph classes

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