Total Variation Meets Differential Privacy

IEEE journal on selected areas in information theory Pub Date : 2024-04-04 DOI:10.1109/JSAIT.2024.3384083
Elena Ghazi;Ibrahim Issa
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Abstract

The framework of approximate differential privacy is considered, and augmented by leveraging the notion of “the total variation of a (privacy-preserving) mechanism” (denoted by $\eta $ -TV). With this refinement, an exact composition result is derived, and shown to be significantly tighter than the optimal bounds for differential privacy (which do not consider the total variation). Furthermore, it is shown that $(\varepsilon ,\delta )$ -DP with $\eta $ -TV is closed under subsampling. The induced total variation of commonly used mechanisms are computed. Moreover, the notion of total variation of a mechanism is studied in the local privacy setting and privacy-utility tradeoffs are investigated. In particular, total variation distance and KL divergence are considered as utility functions and studied through the lens of contraction coefficients. Finally, the results are compared and connected to the locally differentially private setting.
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总变化符合差异隐私
本文考虑了近似差分隐私的框架,并利用"(隐私保护)机制的总变化 "概念(用 $\eta $ -TV表示)对其进行了扩展。通过这种改进,得出了精确的组成结果,并证明它比差分隐私的最优边界(不考虑总变化)要严密得多。此外,还证明了$(\varepsilon ,\delta)$-DP与$\ea$-TV在子采样下是封闭的。计算了常用机制的诱导总变化。此外,在局部隐私设置中研究了机制总变化的概念,并探讨了隐私-效用的权衡。特别是,总变异距离和 KL 发散被视为效用函数,并通过收缩系数的视角进行研究。最后,对结果进行了比较,并将其与局部差异隐私设置联系起来。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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IEEE journal on selected areas in information theory
IEEE journal on selected areas in information theory
CiteScore
8.20
自引率
0.00%
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0
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