Comparison of Maximal Upward Planar Subgraph Computation Algorithms

2012 10th International Conference on Frontiers of Information Technology Pub Date : 2012-12-17 DOI:10.1109/FIT.2012.71
A. Rextin
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Abstract

A digraph G = (V, E) is upward planar if it has a planar drawing with all edges pointing upward. A subgraph G̃ of a digraph G with an upward planar drawing is called a maximal upward planar subgraph of G if the addition of any edge in G\G to G̃ causes non-upward planarity. Binucci et al. showed that finding even the maximum upward planar subgraph of an embedded digraph Gφ is NP-Complete [1]. In this paper, we compare different algorithms to find maximal upward planar subgraph of an embedded digraph. We also use a large test suite of embedded digraphs to gain a deeper understanding of upward planarity and see how the different heuristics perform in practice.
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最大向上平面子图计算算法的比较
如果有向图G = (V, E)具有所有边向上的平面,则该有向图G = (V, E)为向上平面。有向图G的上平面子图G,如果G\G中的任何一条边加到G的上平面上导致非上平面,则称为G的最大上平面子图G。Binucci等人证明,即使找到嵌入有向图Gφ的最大向上平面子图也是np完全的[1]。本文比较了求嵌入式有向图上最大平面子图的几种算法。我们还使用嵌入式有向图的大型测试套件来更深入地理解向上平面性,并查看不同的启发式在实践中的表现。
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2012 10th International Conference on Frontiers of Information Technology
2012 10th International Conference on Frontiers of Information Technology
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