Preserving Data-Privacy with Added Noises: Optimal Estimation and Privacy Analysis

March 17, 2017 Β· Declared Dead Β· πŸ› IEEE Transactions on Information Theory

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Authors Jianping He, Lin Cai, Xinping Guan arXiv ID 1703.06212 Category cs.IT: Information Theory Citations 102 Venue IEEE Transactions on Information Theory Last Checked 4 months ago
Abstract
Networked system often relies on distributed algorithms to achieve a global computation goal with iterative local information exchanges between neighbor nodes. To preserve data privacy, a node may add a random noise to its original data for information exchange at each iteration. Nevertheless, a neighbor node can estimate other's original data based on the information it received. The estimation accuracy and data privacy can be measured in terms of $(Ξ΅, Ξ΄)$-data-privacy, defined as the probability of $Ξ΅$-accurate estimation (the difference of an estimation and the original data is within $Ξ΅$) is no larger than $Ξ΄$ (the disclosure probability). How to optimize the estimation and analyze data privacy is a critical and open issue. In this paper, a theoretical framework is developed to investigate how to optimize the estimation of neighbor's original data using the local information received, named optimal distributed estimation. Then, we study the disclosure probability under the optimal estimation for data privacy analysis. We further apply the developed framework to analyze the data privacy of the privacy-preserving average consensus algorithm and identify the optimal noises for the algorithm.
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