On the Complexity of Realizing Facial Cycles
Abstract
We study the following combinatorial problem. Given a planar graph G=(V,E) and a set of simple cycles C in G, find a planar embedding E of G such that the number of cycles in C that bound a face in E is maximized. We establish a tight border of tractability for this problem in biconnected planar graphs by giving conditions under which the problem is NP-hard and showing that relaxing any of these conditions makes the problem polynomial-time solvable. Moreover, we give a 2-approximation algorithm for series-parallel graphs and a (4+)-approximation for biconnected planar graphs.
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