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Differentially Private Spatial Decomposition of 2D Data for Range Queries

Overview

This study looked at the challenge of producing accurate answers to range queries on two-dimensional geospatial data sets while still preserving the privacy of the data set participants. For verification purposes, the relative errors produced in answering these range queries were compared to those obtained from Zhang et al. (2016) using the same algorithms on the same data sets.

Interactive Web-App

Use the interactive web-app to see how different algorithms spatially decompose 2D geospatial data to answer range queries that satisfy differential privacy.

Details of Study

Read full paper here.

The paper contains detailed definitions of differential privacy and range queries as well as details of all algorithms used, methods followed, and the results that were obtained.

References

  • Data Sets:
  • Algorithms:
    • J. Zhang, X. Xiaokui, and X. Xing, ''Privtree: A differentially private algorithm for hierarchical decompositions,'' In Proceedings of the 2016 International Conference on Management of Data, 2016, pp. 155-170.
    • W. Qardaji, W. Yang and N. Li, ''Differentially private grids for geospatial data,'' 2013 IEEE 29th International Conference on Data Engineering (ICDE), Brisbane, QLD, 2013, pp. 757-768, doi: 10.1109/ICDE.2013.6544872.
    • G. Cormode, C. Procopiuc, D. Srivastava, E. Shen and T. Yu, ''Differentially Private Spatial Decompositions,'' 2012 IEEE 28th International Conference on Data Engineering, Washington, DC, 2012, pp. 20-31, doi: 10.1109/ICDE.2012.16.