An extensible index for spatial databases

Proceedings Thirteenth International Conference on Scientific and Statistical Database Management. SSDBM 2001 Pub Date : 2001-07-18 DOI:10.1109/SSDM.2001.938537

Walid G. Aref, I. Ilyas

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引用次数: 22

Abstract

Emerging database applications require the use of new indexing structures beyond B-trees and R-trees. Examples are the k-D tree, the trie, the quadtree, and their variants. They are often proposed as supporting structures in data mining, GIS, and CAD/CAM applications. A common feature of all these indexes is that they recursively divide the spare into partitions. A novel extensible index structure, termed SP-GiST, is presented that supports this class of data structure, mainly the class of space partitioning unbalanced trees. Simple method implementations are provided that demonstrate how SP-GiST can behave as a k-D tree, a trie, a quadtree, or any of their variants. Issues related to clustering tree nodes into pages as well as concurrency control for SP-GiST are addressed. A dynamic minimum-height clustering technique is applied to minimize disk accesses and to make using such trees in database systems possible and efficient. A prototype implementation of SP-GiST is presented as well as performance studies of the various SP-GiST's tuning parameters.

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空间数据库的可扩展索引

新兴的数据库应用程序需要使用b树和r树之外的新索引结构。例如k-D树、三叉树、四叉树以及它们的变体。它们通常被建议作为数据挖掘、GIS和CAD/CAM应用程序中的支持结构。所有这些索引的一个共同特征是，它们递归地将空闲分区划分为多个分区。提出了一种新的可扩展索引结构SP-GiST，支持这类数据结构，主要是空间划分不平衡树。提供了简单的方法实现来演示SP-GiST如何作为k-D树、三叉树、四叉树或它们的任何变体来工作。解决了与将树节点集群到页面以及SP-GiST的并发控制相关的问题。动态最小高度集群技术用于最小化磁盘访问，并使在数据库系统中使用这种树成为可能和有效。提出了SP-GiST的原型实现，并对SP-GiST的各种调优参数进行了性能研究。

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来源期刊

Proceedings Thirteenth International Conference on Scientific and Statistical Database Management. SSDBM 2001

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