Simultaneous Embedding of Colored Graphs
Abstract
A set of colored graphs are compatible, if for every color , the number of vertices of color is the same in every graph. A simultaneous embedding of compatibly colored graphs, each with vertices, consists of planar polyline drawings of these graphs such that the vertices of the same color are mapped to a common set of vertex locations. We prove that simultaneous embedding of colored planar graphs, each with vertices, can always be computed with a sublinear number of bends per edge. Specifically, we show an upper bound on the number of bends per edge, where and is the total number of colors. Our bound, which results from a better analysis of a previously known algorithm [Durocher and Mondal, SIAM J. Discrete Math., 32(4), 2018], improves the bound for , as well as the bend complexity by a factor of . The algorithm can be generalized to obtain small universal point sets for colored graphs. We prove that vertex locations, where , suffice to embed any set of compatibly colored -vertex planar graphs with bend complexity , where is the number of colors.
Cite
@article{arxiv.2101.06596,
title = {Simultaneous Embedding of Colored Graphs},
author = {Debajyoti Mondal},
journal= {arXiv preprint arXiv:2101.06596},
year = {2021}
}