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A New Top-K Nearest Neighbor and Range Combined Query Processing for Spatial Data


Affiliations
1 Department of Computer Science, Sri Ramakrishna Mission Vidyalaya College of Arts and Science, Coimbatore, Tamilnadu, India
     

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Nearest Neighbor queries and All Nearest Neighbor (ANN) operation is a commonly used primitive for analyzing large multi-dimensional datasets, ANN is very expensive. The traditional index-based methods use a pruning metric called MAXMAXDIST and a new ANN pruning metric called NXNDIST, it reduces the computation time. The existing system stores the bucket quad tree index structure, called  MBRQT. It is using extensive experimental evaluation to show that MBRQT index can significantly speed up the computation and efficiently answer the more general All-k-Nearest-Neighbor (AkNN) queries. Top-k spatial preference query retrieves the k best  data objects in road network with highest scores. The score of an object is defined by the quality of features in its spatial neighborhood.
The wide range of location-based applications that rely on spatial preference queries. Range query are used to find the accurate results from the spatial location. The essential idea is to precompute some accurate information in top K queries. To propose a novel technique to speed up the performance of  top-k spatial preference queries with nearest neighbor query and range query. In proposed system,  determining a range query to evaluate a top-k query by exploiting the nearest neighbor algorithm. Top k nearest range query algorithm is used to assign the range values for each nearest neighbor queries at given query. After assign the range values to the query, calculating all nearest neighbor using the nearest neighbor algorithm. Then calculating the nearest neighbor query with range values, the top k queries are selected for query result. The result of proposed new Top k nearest neighbor and range combined query processing is compared with existing nearest neighbor query techniques. Finally the performance of top k nearest range query algorithm process produce more efficient result and retrieval efficiency of the resulting scheme is high.

Keywords

Spatial Data, Nearest Neighbor, Range Query, All-Nearest-Neighbor (ANN).
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  • A New Top-K Nearest Neighbor and Range Combined Query Processing for Spatial Data

Abstract Views: 253  |  PDF Views: 2

Authors

C. R. Sakthivel
Department of Computer Science, Sri Ramakrishna Mission Vidyalaya College of Arts and Science, Coimbatore, Tamilnadu, India
P. Kanchana
Department of Computer Science, Sri Ramakrishna Mission Vidyalaya College of Arts and Science, Coimbatore, Tamilnadu, India

Abstract


Nearest Neighbor queries and All Nearest Neighbor (ANN) operation is a commonly used primitive for analyzing large multi-dimensional datasets, ANN is very expensive. The traditional index-based methods use a pruning metric called MAXMAXDIST and a new ANN pruning metric called NXNDIST, it reduces the computation time. The existing system stores the bucket quad tree index structure, called  MBRQT. It is using extensive experimental evaluation to show that MBRQT index can significantly speed up the computation and efficiently answer the more general All-k-Nearest-Neighbor (AkNN) queries. Top-k spatial preference query retrieves the k best  data objects in road network with highest scores. The score of an object is defined by the quality of features in its spatial neighborhood.
The wide range of location-based applications that rely on spatial preference queries. Range query are used to find the accurate results from the spatial location. The essential idea is to precompute some accurate information in top K queries. To propose a novel technique to speed up the performance of  top-k spatial preference queries with nearest neighbor query and range query. In proposed system,  determining a range query to evaluate a top-k query by exploiting the nearest neighbor algorithm. Top k nearest range query algorithm is used to assign the range values for each nearest neighbor queries at given query. After assign the range values to the query, calculating all nearest neighbor using the nearest neighbor algorithm. Then calculating the nearest neighbor query with range values, the top k queries are selected for query result. The result of proposed new Top k nearest neighbor and range combined query processing is compared with existing nearest neighbor query techniques. Finally the performance of top k nearest range query algorithm process produce more efficient result and retrieval efficiency of the resulting scheme is high.

Keywords


Spatial Data, Nearest Neighbor, Range Query, All-Nearest-Neighbor (ANN).