Speeding up construction of PMR quadtree-based spatial indexes
Title | Speeding up construction of PMR quadtree-based spatial indexes |
Publication Type | Journal Articles |
Year of Publication | 2002 |
Authors | Hjaltason GR, Samet H |
Journal | The VLDB Journal |
Volume | 11 |
Issue | 2 |
Pagination | 109 - 137 |
Date Published | 2002/10// |
ISBN Number | 1066-8888 |
Keywords | Bulk-loading, I/O, spatial indexing |
Abstract | Spatial indexes, such as those based on the quadtree, are important in spatial databases for efficient execution of queries involving spatial constraints, especially when the queries involve spatial joins. In this paper we present a number of techniques for speeding up the construction of quadtree-based spatial indexes, specifically the PMR quadtree, which can index arbitrary spatial data. We assume a quadtree implementation using the “linear quadtree”, a disk-resident representation that stores objects contained in the leaf nodes of the quadtree in a linear index (e.g., a B-tree) ordered based on a space-filling curve. We present two complementary techniques: an improved insertion algorithm and a bulk-loading method. The bulk-loading method can be extended to handle bulk-insertions into an existing PMR quadtree. We make some analytical observations about the I/O cost and CPU cost of our PMR quadtree bulk-loading algorithm, and conduct an extensive empirical study of the techniques presented in the paper. Our techniques are found to yield significant speedup compared to traditional quadtree building methods, even when the size of a main memory buffer is very small compared to the size of the resulting quadtrees. |
URL | http://dx.doi.org/10.1007/s00778-002-0067-8 |
DOI | 10.1007/s00778-002-0067-8 |