SEA-CNN: scalable processing of continuous k-nearest neighbor queries in spatio-temporal databases

Location-aware environments are characterized by a large number of objects and a large number of continuous queries. Both the objects and continuous queries may change their locations over time. In this paper, we focus on continuous k-nearest neighbor queries (CKNN, for short). We present a new algo...

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Bibliographic Details
Main Authors: Xiong, X., Mokbel, M.F., Aref, W.G.
Format: Conference Proceeding
Language:English
Subjects:
Costs
Degradation
Delay
Monitoring
Performance evaluation
Query processing
Scalability
Shape
Spatiotemporal phenomena
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Summary:Location-aware environments are characterized by a large number of objects and a large number of continuous queries. Both the objects and continuous queries may change their locations over time. In this paper, we focus on continuous k-nearest neighbor queries (CKNN, for short). We present a new algorithm, termed SEA-CNN, for answering continuously a collection of concurrent CKNN queries. SEA-CNN has two important features: incremental evaluation and shared execution. SEA-CNN achieves both efficiency and scalability in the presence of a set of concurrent queries. Furthermore, SEA-CNN does not make any assumptions about the movement of objects, e.g., the objects velocities and shapes of trajectories, or about the mutability of the objects and/or the queries, i.e., moving or stationary queries issued on moving or stationary objects. We provide theoretical analysis of SEA-CNN with respect to the execution costs, memory requirements and effects of tunable parameters. Comprehensive experimentation shows that SEA-CNN is highly scalable and is more efficient in terms of both I/O and CPU costs in comparison to other R-tree-based CKNN techniques.
ISSN:1063-6382
2375-026X
DOI:10.1109/ICDE.2005.128