A general strategy for decomposing topological invariants of spatial databases and an application

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摘要

Topological invariants of spatial databases (i.e., finite structures that capture the topological properties of the database) are receiving increasing attention since they can act as a basic structure to tackle relevant problems in the field (e.g., assessment of the topological equivalence). In this paper, the novel notion of boundary decomposition of a topological invariant is introduced and a polynomial time algorithm to compute such a decomposition is given. The decomposition consists of a recursive subdivision of the topological invariant into a finite set of simpler structures, each being a topological invariant in itself. The decomposition is proved to be lossless, a nice property which makes the boundary decomposition useful in real applications. As a relevant application, we use the boundary decomposition as the basis for devising a polynomial time algorithm for testing the topological equivalence of two two-dimensional spatial databases.

论文关键词:Spatial data,Constraint database,Topological invariant,Topological equivalence,Algorithm

论文评审过程:Received 24 July 2001, Accepted 19 December 2001, Available online 8 February 2002.

论文官网地址:https://doi.org/10.1016/S0169-023X(02)00027-7