Privacy disclosure analysis and control for 2D contingency tables containing inaccurate data
PSD'10 Proceedings of the 2010 international conference on Privacy in statistical databases
Securing data warehouses: a semi-automatic approach for inference prevention at the design level
MEDI'11 Proceedings of the First international conference on Model and data engineering
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The fundamental problem for inference control in data cubes is how to efficiently calculate the lower and upper bounds for each cell value given the aggregations of cell values over multiple dimensions. In this paper, we provide the first practical solution for estimating exact bounds in two-dimensional irregular data cubes (i.e., data cubes in which certain cell values are known to a snooper). Our results imply that the exact bounds cannot be obtained by a direct application of the Fr\\'{e}chet bounds in some cases. We then propose a new approach to improve the classic Fr\\'{e}chet bounds for any high-dimensional data cube in the most general case. The proposed approach improves upon the Fr\\'{e}chet bounds in the sense that it gives bounds that are at least as tight as those computed by Fr\\'{e}chet, yet is simpler in terms of time complexity. Based on our solutions to the fundamental problem, we discuss various security applications such as privacy protection of released data, fine-grained access control and auditing, and identify some future research directions.