Improving Performance of Spatial Network Queries
Spatial network queries, for example KNN or range, operate on systems where objects are constrained to locations on a network. Current spatial network query algorithms rely on forms of network traversal which have a high complexity proportional to the size of the network making, them poor for larg...
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ndltd-uno.edu-oai-scholarworks.uno.edu-td-14272016-10-21T17:04:11Z Improving Performance of Spatial Network Queries Ioup, Elias Spatial network queries, for example KNN or range, operate on systems where objects are constrained to locations on a network. Current spatial network query algorithms rely on forms of network traversal which have a high complexity proportional to the size of the network making, them poor for large real-world networks. In this thesis, an alternative method of approximating the results of spatial network queries with a high level of accuracy is introduced. Distances between network points are stored in an M-Tree index, a balanced tree index where metric distance determines data ordering. The M-Tree uses the chessboard metric on network points embedded in a higher dimensional space using tRNE. Using the M-Tree both KNN and range queries are computed more efficiently than network traversal. Error rates of the M-Tree are low, with accuracies of 97% possible on KNN queries and perfect accuracy with 2% extra results on range queries. 2006-08-09T07:00:00Z text application/pdf http://scholarworks.uno.edu/td/406 http://scholarworks.uno.edu/cgi/viewcontent.cgi?article=1427&context=td University of New Orleans Theses and Dissertations ScholarWorks@UNO |
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Spatial network queries, for example KNN or range, operate on systems where objects are constrained to locations on a network. Current spatial network query algorithms rely on forms of network traversal which have a high complexity proportional to the size of the network making, them poor for large real-world networks. In this thesis, an alternative method of approximating the results of spatial network queries with a high level of accuracy is introduced. Distances between network points are stored in an M-Tree index, a balanced tree index where metric distance determines data ordering. The M-Tree uses the chessboard metric on network points embedded in a higher dimensional space using tRNE. Using the M-Tree both KNN and range queries are computed more efficiently than network traversal. Error rates of the M-Tree are low, with accuracies of 97% possible on KNN queries and perfect accuracy with 2% extra results on range queries. |
| author |
Ioup, Elias |
| spellingShingle |
Ioup, Elias Improving Performance of Spatial Network Queries |
| author_facet |
Ioup, Elias |
| author_sort |
Ioup, Elias |
| title |
Improving Performance of Spatial Network Queries |
| title_short |
Improving Performance of Spatial Network Queries |
| title_full |
Improving Performance of Spatial Network Queries |
| title_fullStr |
Improving Performance of Spatial Network Queries |
| title_full_unstemmed |
Improving Performance of Spatial Network Queries |
| title_sort |
improving performance of spatial network queries |
| publisher |
ScholarWorks@UNO |
| publishDate |
2006 |
| url |
http://scholarworks.uno.edu/td/406 http://scholarworks.uno.edu/cgi/viewcontent.cgi?article=1427&context=td |
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AT ioupelias improvingperformanceofspatialnetworkqueries |
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