Abstract
We consider the problem of constructing binary space partitions (BSPs) for orthogonal subdivisions (space-filling packings of boxes) in d-space. We show that a subdivision with n boxes can be refined into a BSP of size $O(n^{(d+1)/{3}})$ for all $d \geq 3$ and that such a partition can be computed in time ${O(K\log n)}$, where K is the size of the BSP produced. Our upper bound on the BSP size is tight for 3-dimensional subdivisions; in higher dimensions, this is the first nontrivial result for general full-dimensional boxes. We also present a lower bound construction for a subdivision of n boxes in d-space for which every axis-aligned BSP has $\Omega(n^{\beta(d)})$ size, where $\beta(d)$ converges to $(1+\sqrt{5})/2$ as $d \rightarrow \infty$.
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