Improved Outerplanarity Bounds for Planar Graphs

Abstract

In this paper, we study the outerplanarity of planar graphs, i.e., the number of times that we must (in a planar embedding that we can initially freely choose) remove the outerface vertices until the graph is empty. It is well-known that there are n-vertex graphs with outerplanarity n6+(1), and not difficult to show that the outerplanarity can never be bigger. We give here improved bounds of the form n2g+2g+O(1), where g is the fence-girth, i.e., the length of the shortest cycle with vertices on both sides. This parameter g is at least the connectivity of the graph, and often bigger; for example, our results imply that planar bipartite graphs have outerplanarity n8+O(1). We also show that the outerplanarity of a planar graph G is at most 12diam(G)+O(n), where diam(G) is the diameter of the graph. All our bounds are tight up to smaller-order terms, and a planar embedding that achieves the outerplanarity bound can be found in linear time.

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