Crossing-Optimal Acyclic HP-Completion for Outerplanar st-Digraphs
DOI:
https://doi.org/10.7155/jgaa.00231Keywords:
Hamiltonian path completion , planar graph , outerplanar graph , st-digraph , crossing minimization , topological book embedding , upward drawingAbstract
Given an embedded planar acyclic digraph G, we define the problem of acyclic hamiltonian path completion with crossing minimization (acyclic-HPCCM) to be the problem of determining a hamiltonian path completion set of edges such that, when these edges are embedded on G, they create the smallest possible number of edge crossings and turn G to a hamiltonian acyclic digraph. Our results include:- We provide a characterization under which a planar st-digraph G is hamiltonian.
- For an outerplanar st-digraph G, we define the st-Polygon decomposition of G and, based on its properties, we develop a linear-time algorithm that solves the acyclic-HPCCM problem.
- For the class of planar st-digraphs, we establish an equivalence between the acyclic-HPCCM problem and the problem of determining an upward 2-page topological book embedding with minimum number of spine crossings. We obtain (based on this equivalence) for the class of outerplanar st-digraphs, an upward topological 2-page book embedding with minimum number of spine crossings.
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Published
2011-07-01
How to Cite
Mchedlidze, T., & Symvonis, A. (2011). Crossing-Optimal Acyclic HP-Completion for Outerplanar st-Digraphs. Journal of Graph Algorithms and Applications, 15(3), 373–415. https://doi.org/10.7155/jgaa.00231
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Copyright (c) 2011 Tamara Mchedlidze, Antonios Symvonis
This work is licensed under a Creative Commons Attribution 4.0 International License.
