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R-Star-Tree

Implementation of R*-tree for spatial data organization and processing based on the paper:
Kriegel, HP., Kunath, P., Renz, M. (2008). R*-Tree. In: Shekhar, S., Xiong, H. (eds) Encyclopedia of GIS. Springer, Boston, MA. https://doi.org/10.1007/978-0-387-35973-1_1148

Operations

The project was written in Java and contains the complete implementation of:

  • Insertion
  • Record deletion
  • Bulk loading using Hilbert Curve
  • Range Query using a rectangle
  • Range Query using a radius
  • k Nearest Neighbors Query
  • Skyline Query

Architecture

Bounds

The bounds class represent a side of the MBR (Minimum Bounding Rectangle).

bounds

Minimum Bounding Rectangle

The MBR class represent a Minimum Bounding Rectangle as defined in the paper [1].

mbr

Record

The Record class represent a Record from the initial dataset, which has an id and a set of coordinates.

record

DataBlock

The DataBlock class represent a block that is written and fetch to and from the dataFile. Consists of a set of records.

datablock

Node Structure

The R*-tree consists of a set of Nodes. Each Node has a set of NodeEntries. Each NodeEntry consists of a the child Node pointer and the MBR that containing the MBR of all the entries of the child Node.

node

Performance

Insertion

Comparison between linear insertion of records and bulk loading.

insert

Range Query using a Rectangle

Range Query execution comparison using the linear method and the R*-tree method.

mbr

Range Query using a Radius

Range Query execution comparison using the linear method and the R*-tree method.

radius

Nearest Neighbors

k-NN execution comparison using the linear method and the R*-tree method.

k-nn

Skyline

Skyline perfomance using the R*-tree

skyline

References

[1] Kriegel, HP., Kunath, P., Renz, M. (2008). R*-Tree. In: Shekhar, S., Xiong, H. (eds) Encyclopedia of GIS. Springer, Boston, MA. https://doi.org/10.1007/978-0-387-35973-1_1148
[2] Antonin Guttman. 1984. R-trees: a dynamic index structure for spatial searching. SIGMOD Rec. 14, 2 (June 1984), 47–57. https://doi.org/10.1145/971697.602266
[3] Nick Roussopoulos, Stephen Kelley, and Frédéric Vincent. 1995. Nearest neighbor queries. SIGMOD Rec. 24, 2 (May 1995), 71–79. https://doi.org/10.1145/568271.223794
[4]Dimitris Papadias, Yufei Tao, Greg Fu, and Bernhard Seeger. 2003. An optimal and progressive algorithm for skyline queries. In Proceedings of the 2003 ACM SIGMOD international conference on Management of data (SIGMOD '03). Association for Computing Machinery, New York, NY, USA, 467–478. https://doi.org/10.1145/872757.872814

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