Our data, ourselves: privacy via distributed noise generation
Cynthia Dwork,Krishnaram Kenthapadi,Frank McSherry,Ilya Mironov,Moni Naor +4 more
- Vol. 4004, pp 486-503
TLDR
In this paper, a distributed protocol for generating shares of random noise, secure against malicious participants, was proposed, where the purpose of the noise generation is to create a distributed implementation of the privacy-preserving statistical databases described in recent papers.Abstract:
In this work we provide efficient distributed protocols for generating shares of random noise, secure against malicious participants. The purpose of the noise generation is to create a distributed implementation of the privacy-preserving statistical databases described in recent papers [14,4,13]. In these databases, privacy is obtained by perturbing the true answer to a database query by the addition of a small amount of Gaussian or exponentially distributed random noise. The computational power of even a simple form of these databases, when the query is just of the form ∑if(di), that is, the sum over all rows i in the database of a function f applied to the data in row i, has been demonstrated in [4]. A distributed implementation eliminates the need for a trusted database administrator.
The results for noise generation are of independent interest. The generation of Gaussian noise introduces a technique for distributing shares of many unbiased coins with fewer executions of verifiable secret sharing than would be needed using previous approaches (reduced by a factor of n). The generation of exponentially distributed noise uses two shallow circuits: one for generating many arbitrarily but identically biased coins at an amortized cost of two unbiased random bits apiece, independent of the bias, and the other to combine bits of appropriate biases to obtain an exponential distribution.read more
Citations
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EdgeSanitizer: Locally Differentially Private Deep Inference at the Edge for Mobile Data Analytics
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Privacy Amplification via Random Check-Ins
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Proceedings ArticleDOI
Differentially Private State Estimation in Distribution Networks with Smart Meters
TL;DR: This work proposes state estimation schemes for a distribution grid model, which ensure differential privacy to the customers, and a trade-off between a lower bound on the estimation performance versus the customers' differential privacy is derived.
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Accessing Data while Preserving Privacy
TL;DR: A new model of differentially private outsourced database systems is presented, where differential privacy is preserved at the record level even against an untrusted server that controls data and queries.
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Variational Bayes In Private Settings (VIPS)
TL;DR: In this paper, a general privacy-preserving framework for Variational Bayes (VB), a widely used optimization-based Bayesian inference method, is proposed. But the framework is restricted to a large class of probabilistic models, called the Conjugate Exponential (CE) family.
References
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Book ChapterDOI
Calibrating noise to sensitivity in private data analysis
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Journal Article
Calibrating noise to sensitivity in private data analysis
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