论文信息 - New Query Processing Algorithms for Range and k-NN Search in Spatial Network Databases

New Query Processing Algorithms for Range and k-NN Search in Spatial Network Databases

In this paper, we design the architecture of disk-based data structures for spatial network databases (SNDB). Based on this architecture, we propose new query processing algorithms for range search and k nearest neighbors (k-NN) search, depending on the density of point of interests (POIs) in the spatial network. For this, we effectively combine Euclidean restriction and the network expansion techniques according to the density of POIs. In addition, our two query processing algorithms can reduce the computation time of network distance between a pair of nodes and the number of disk I/Os required for accessing nodes by using maintaining the shortest network distances of all the nodes in the spatial network. It is shown that our range query processing algorithm achieves about up to one order of magnitude better performance than the existing range query processing algorithm, such as RER and RNE [1]. In addition, our k-NN query processing algorithm achieves about up to 170~400% performance improvements over the existing network expansion k-NN algorithm, called INE, while it shows about up to one order of magnitude better performance than the existing Euclidean restriction k-NN algorithm, called IER [1].

[1] Chengyang Zhang,et al. Advances in Spatial and Temporal Databases , 2015, Lecture Notes in Computer Science.

[2] Torben Bach Pedersen,et al. Nearest neighbor queries in road networks , 2003, GIS '03.

[3] Hans-Peter Kriegel,et al. Optimal multi-step k-nearest neighbor search , 1998, SIGMOD '98.

[4] Cyrus Shahabi,et al. Voronoi-Based K Nearest Neighbor Search for Spatial Network Databases , 2004, VLDB.

[5] Christian S. Jensen,et al. Computational data modeling for network-constrained moving objects , 2003, GIS '03.

[6] Shashi Shekhar,et al. Spatial Databases - Accomplishments and Research Needs , 1999, IEEE Trans. Knowl. Data Eng..

[7] Christian S. Jensen,et al. The Islands Approach to Nearest Neighbor Querying in Spatial Networks , 2005, SSTD.

[8] Thomas Brinkhoff,et al. A Framework for Generating Network-Based Moving Objects , 2002, GeoInformatica.

[9] Yufei Tao,et al. Query Processing in Spatial Network Databases , 2003, VLDB.

[10] Elke A. Rundensteiner,et al. Hierarchical Encoded Path Views for Path Query Processing: An Optimal Model and Its Performance Evaluation , 1998, IEEE Trans. Knowl. Data Eng..

[11] Dieter Pfoser,et al. Indexing of network constrained moving objects , 2003, GIS '03.

[12] Christos Faloutsos,et al. The R+-Tree: A Dynamic Index for Multi-Dimensional Objects , 1987, VLDB.