Abstract

With the widespread application of Geographic Information System (GIS), three-dimensional spatial data, as the reflection of the real world entity, has an increasing amount of data, and the phenomenon of uneven data distribution appears. If a single spatial index structure is used to store and manage these data, there will be a waste of storage space and low query efficiency. A hybrid index structure based on 3D multi-level adaptive grid and R+ tree was proposed to solve these problems. The index structure was mainly composed of two structures, multi-level grid and R+ tree. Firstly, the data set was processed by the multi-level automatic grid algorithm based on normal distribution, and the length, width and height of the grid were obtained. Secondly, a multi-level adaptive grid structure was used to partition the data space quickly and effectively, and the advantage of zero overlap of the intermediate nodes of the R+ tree was used for efficient indexing. Finally, the maintenance and query algorithms of the index structure were given in detail, which solved the problem of low index establishment and retrieval efficiency under the condition of uneven distribution of massive data sets. In this paper, a data set subject to Gauss distribution was used to simulate the distribution of three-dimensional data. Through a large number of experimental comparison tests, it was proved that the hybrid index structure based on 3D multi-level adaptive grid-R+ tree proposed in this paper had good performance in both index structure construction and query in the case of massive data sets or uneven data distribution.

Highlights

  • With the widespread application of Geographic Information System (GIS), spatial indexing technology affects the efficiency of spatial data query and GIS retrieval to a certain extent

  • This paper proposed a hybrid index structure based on 3D multi-level adaptive grid and R+ tree, which used a multi-level grid automatic division algorithm based on normal distribution to divide the grid and obtained m × n × t sub-grids

  • We propose a combination of these two structures and a new hybrid index structure based on the three-dimensional multi-level adaptive grid and R+ tree

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Summary

INTRODUCTION

With the widespread application of Geographic Information System (GIS), spatial indexing technology affects the efficiency of spatial data query and GIS retrieval to a certain extent. In view of the large amount of spatial data and uneven data distribution, if a single spatial index structure is used to store and manage these data, there will be a waste of storage space and low query efficiency. Compared with the OBB model, 8DOP model and convex hull model, the MBB model is more prone to spatial overlap Using it to build an R tree index structure will lead to serious multi-path problems, thereby reducing the speed and accuracy of the query. Each sub-grid contains a certain number of spatial objects It has a good I/O performance and fast search speed in general. The traditional MBB model is used to represent the data in three-dimensional space, and a hybrid index structure of grid and R+ tree is adopted. The spatial data within the sub-grid adopts a zero-crossing R+ tree index structure to avoid multi-path problems during query.

RELATED WORK
THE OVERALL STRUCTURE DESIGN
EXPERIMENTAL RESULTS AND ANALYSIS
CONCLUSION

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