Abstract
We introduce a family of directed geometric graphs, denoted \(G_\lambda^\theta\), that depend on two parameters λ and θ. For \(0\leq \theta<\frac{\pi}{2}\) and \(\frac{1}{2} < \lambda < 1\), the \(G_\lambda^\theta\) graph is a strong t-spanner, with \(t=\frac{1}{(1-\lambda)\cos\theta}\). The out-degree of a node in the \(G_\lambda^\theta\) graph is at most \(\lfloor2\pi/\min(\theta, \arccos\frac{1}{2\lambda})\rfloor\). Moreover, we show that routing can be achieved locally on \(G_\lambda^\theta\). Next, we show that all strong t-spanners are also t-spanners of the unit disk graph. Simulations for various values of the parameters λ and θ indicate that for random point sets, the spanning ratio of \(G_\lambda^\theta\) is better than the proven theoretical bounds.
Research supported in part by NSERC, MITACS, MRI, and HPCVL.
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Bose, P., Carmi, P., Couture, M., Smid, M., Xu, D. (2007). On a Family of Strong Geometric Spanners That Admit Local Routing Strategies. In: Dehne, F., Sack, JR., Zeh, N. (eds) Algorithms and Data Structures. WADS 2007. Lecture Notes in Computer Science, vol 4619. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-73951-7_27
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DOI: https://doi.org/10.1007/978-3-540-73951-7_27
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