Internally-Convex Drawings of Outerplanar Graphs in Small Area
By: Michael A. Bekos , Giordano Da Lozzo , Fabrizio Frati and more
Potential Business Impact:
Draws pictures of maps with less wasted space.
A well-known result by Kant [Algorithmica, 1996] implies that n-vertex outerplane graphs admit embedding-preserving planar straight-line grid drawings where the internal faces are convex polygons in $O(n^2)$ area. In this paper, we present an algorithm to compute such drawings in $O(n^{1.5})$ area. We also consider outerplanar drawings in which the internal faces are required to be strictly-convex polygons. In this setting, we consider outerplanar graphs whose weak dual is a path and give a drawing algorithm that achieves $\Theta(nk^2)$ area, where $k$ is the maximum size of an internal facial cycle.
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