Optimizing fitness-for-use of differentially private linear Queries

Yingtai Xiao; Zeyu Ding; Yuxin Wang; Danfeng Zhang; Daniel Kifer

doi:10.14778/3467861.3467864

Optimizing fitness-for-use of differentially private linear Queries

Yingtai Xiao
, Zeyu Ding
, Yuxin Wang
, Danfeng Zhang
, Daniel Kifer

School of Computing

Binghamton University

Pennsylvania State University

Research output: Contribution to journal › Conference article › peer-review

9 Scopus citations

Abstract

In practice, differentially private data releases are designed to support a variety of applications. A data release is fit for use if it meets target accuracy requirements for each application. In this paper, we consider the problem of answering linear queries under differential privacy subject to per-query accuracy constraints. Existing practical frameworks like the matrix mechanism do not provide such fine-grained control (they optimize total error, which allows some query answers to be more accurate than necessary, at the expense of other queries that become no longer useful). Thus, we design a fitness-for-use strategy that adds privacy-preserving Gaussian noise to query answers. The covariance structure of the noise is optimized to meet the fine-grained accuracy requirements while minimizing the cost to privacy.

Original language	English
Pages (from-to)	1730-1742
Number of pages	13
Journal	Proceedings of the VLDB Endowment
Volume	14
Issue number	10
DOIs	https://doi.org/10.14778/3467861.3467864
State	Published - 2021
Event	47th International Conference on Very Large Data Bases, VLDB 2021 - Virtual, Online Duration: Aug 16 2021 → Aug 20 2021

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abstract = "In practice, differentially private data releases are designed to support a variety of applications. A data release is fit for use if it meets target accuracy requirements for each application. In this paper, we consider the problem of answering linear queries under differential privacy subject to per-query accuracy constraints. Existing practical frameworks like the matrix mechanism do not provide such fine-grained control (they optimize total error, which allows some query answers to be more accurate than necessary, at the expense of other queries that become no longer useful). Thus, we design a fitness-for-use strategy that adds privacy-preserving Gaussian noise to query answers. The covariance structure of the noise is optimized to meet the fine-grained accuracy requirements while minimizing the cost to privacy.",

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AU - Xiao, Yingtai

AU - Ding, Zeyu

AU - Wang, Yuxin

AU - Zhang, Danfeng

AU - Kifer, Daniel

N1 - Publisher Copyright: © by the owner/author(s).

PY - 2021

Y1 - 2021

N2 - In practice, differentially private data releases are designed to support a variety of applications. A data release is fit for use if it meets target accuracy requirements for each application. In this paper, we consider the problem of answering linear queries under differential privacy subject to per-query accuracy constraints. Existing practical frameworks like the matrix mechanism do not provide such fine-grained control (they optimize total error, which allows some query answers to be more accurate than necessary, at the expense of other queries that become no longer useful). Thus, we design a fitness-for-use strategy that adds privacy-preserving Gaussian noise to query answers. The covariance structure of the noise is optimized to meet the fine-grained accuracy requirements while minimizing the cost to privacy.

AB - In practice, differentially private data releases are designed to support a variety of applications. A data release is fit for use if it meets target accuracy requirements for each application. In this paper, we consider the problem of answering linear queries under differential privacy subject to per-query accuracy constraints. Existing practical frameworks like the matrix mechanism do not provide such fine-grained control (they optimize total error, which allows some query answers to be more accurate than necessary, at the expense of other queries that become no longer useful). Thus, we design a fitness-for-use strategy that adds privacy-preserving Gaussian noise to query answers. The covariance structure of the noise is optimized to meet the fine-grained accuracy requirements while minimizing the cost to privacy.

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EP - 1742

JO - Proceedings of the VLDB Endowment

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IS - 10

T2 - 47th International Conference on Very Large Data Bases, VLDB 2021

Y2 - 16 August 2021 through 20 August 2021

ER -

Optimizing fitness-for-use of differentially private linear Queries

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