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GD
2009
Springer
2009
Springer
Manhattan-Geodesic Embedding of Planar Graphs
In this paper, we explore a new convention for drawing graphs, the (Manhattan-) geodesic drawing convention. It requires that edges are drawn as interior-disjoint monotone chains of axis-parallel line segments, that is, as geodesics with respect to the Manhattan metric. First, we show that geodesic embeddability on the grid is equivalent to 1-bend embeddability on the grid. For the latter question an efficient algorithm has been proposed. Second, we consider geodesic point-set embeddability where the task is to decide whether a given graph can be embedded on a given point set. We show that this problem is NP-hard. In contrast, we efficiently solve geodesic polygonization—the special case where the graph is a cycle. Third, we consider geodesic point-set embeddability where the vertex–point correspondence is given. We show that on the grid, this problem is NP-hard even for perfect matchings, but without the grid restriction, we solve the matching problem efficiently.
Real-time TrafficComputer Graphics | GD 2009 | Geodesic | Geodesic Drawing Convention | Geodesic Point-set Embeddability |
| Added | 24 Jul 2010 |
| Updated | 24 Jul 2010 |
| Type | Conference |
| Year | 2009 |
| Where | GD |
| Authors | Bastian Katz, Marcus Krug, Ignaz Rutter, Alexander Wolff |
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