핵심 개념
Pure-DP bounds for Gaussian selection mechanisms with bounded queries.
초록
The content discusses the analysis of privacy in selection mechanisms using Gaussian noise. It introduces Report Noisy Max and Above Threshold mechanisms, focusing on their privacy guarantees when using Laplace vs. Gaussian noise. The study revisits the analysis of these mechanisms with Gaussian noise, providing pure ex-ante DP bounds for Report Noisy Max and pure ex-post DP bounds for Above Threshold. It proposes a privacy filter for composing pure ex-post DP guarantees and derives a fully adaptive mechanism. Empirical experiments demonstrate competitive performance with previous approaches.
Introduction
Differential Privacy (DP) framework used for private data release.
Trade-off between privacy and utility.
Applications in smart meters, energy grids, and mobility datasets.
Data Extraction
"Pure DP guarantees for these mechanisms are easy to obtain when Laplace noise is added to the queries."
"Replacing the Laplace distribution with a Gaussian distribution is advantageous in many DP mechanisms."
"The resulting bounds are tight and depend on closed-form expressions that can be numerically evaluated using standard methods."
Quotations
"Overly accurate answers to too many questions will destroy privacy in a spectacular way."
"Any function of the output of a DP mechanism still satisfies DP with the same (or better) parameters."
Further Questions
How does the use of Gaussian noise impact the accuracy of selection mechanisms compared to Laplace noise?
What are the implications of providing pure ex-ante vs. pure ex-post DP guarantees?
How can fully adaptive composition enhance privacy accounting in online algorithms?
통계
Pure DP guarantees for these mechanisms are easy to obtain when Laplace noise is added to the queries.
Replacing the Laplace distribution with a Gaussian distribution is advantageous in many DP mechanisms.
인용구
"Overly accurate answers to too many questions will destroy privacy in a spectacular way."
"Any function of the output of a DP mechanism still satisfies DP with the same (or better) parameters."