Computer Science – Computational Geometry
Scientific paper
2007-12-04
Computer Science
Computational Geometry
Scientific paper
We address the following problem: Given a complete $k$-partite geometric graph $K$ whose vertex set is a set of $n$ points in $\mathbb{R}^d$, compute a spanner of $K$ that has a ``small'' stretch factor and ``few'' edges. We present two algorithms for this problem. The first algorithm computes a $(5+\epsilon)$-spanner of $K$ with O(n) edges in $O(n \log n)$ time. The second algorithm computes a $(3+\epsilon)$-spanner of $K$ with $O(n \log n)$ edges in $O(n \log n)$ time. The latter result is optimal: We show that for any $2 \leq k \leq n - \Theta(\sqrt{n \log n})$, spanners with $O(n \log n)$ edges and stretch factor less than 3 do not exist for all complete $k$-partite geometric graphs.
Bose Prosenjit
Carmi Paz
Couture Mathieu
Maheshwari Anil
Morin Pat
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