Toroidal grid minors and stretch in embedded graphs

doi:10.1016/j.jctb.2019.05.009

Journal of Combinatorial Theory, Series B

Volume 140, January 2020, Pages 323-371

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Abstract

We investigate the toroidal expanse of an embedded graph G, that is, the size of the largest toroidal grid contained in G as a minor. In the course of this work we introduce a new embedding density parameter, the stretch of an embedded graph G, and use it to bound the toroidal expanse from above and from below within a constant factor depending only on the genus and the maximum degree. We also show that these parameters are tightly related to the planar crossing number of G. As a consequence of our bounds, we derive an efficient constant factor approximation algorithm for the toroidal expanse and for the crossing number of a surface-embedded graph with bounded maximum degree.

Keywords

Graph embeddings

Compact surfaces

Edge-width

Toroidal grid

Crossing number

Stretch

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¹: Supported by the German Research Foundation (DFG), projects CH 897/2-1 and CH 897/2-2.

²: Supported by the Czech Science Foundation, projects 14-03501S (until 2016) and 17-00837S.

³: Supported by CONACYT Grant 106432.