Optimizing Batch Linear Queries under Exact and Approximate Differential Privacy
Differential privacy is a promising privacy-preserving paradigm for statistical query processing over sensitive data. It works by injecting random noise into each query result such that it is provably hard for the adversary to infer the presence or absence of any individual record from the published...
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sg-ntu-dr.10356-813872020-03-07T11:48:54Z Optimizing Batch Linear Queries under Exact and Approximate Differential Privacy Yuan, Ganzhao Zhang, Zhenjie Winslett, Marianne Xiao, Xiaokui Yang, Yin Hao, Zhifeng School of Computer Science and Engineering Linear counting query Differential privacy Differential privacy is a promising privacy-preserving paradigm for statistical query processing over sensitive data. It works by injecting random noise into each query result such that it is provably hard for the adversary to infer the presence or absence of any individual record from the published noisy results. The main objective in differentially private query processing is to maximize the accuracy of the query results while satisfying the privacy guarantees. Previous work, notably Li et al. [2010], has suggested that, with an appropriate strategy, processing a batch of correlated queries as a whole achieves considerably higher accuracy than answering them individually. However, to our knowledge there is currently no practical solution to find such a strategy for an arbitrary query batch; existing methods either return strategies of poor quality (often worse than naive methods) or require prohibitively expensive computations for even moderately large domains. Motivated by this, we propose a low-rank mechanism (LRM), the first practical differentially private technique for answering batch linear queries with high accuracy. LRM works for both exact (i.e., ε-) and approximate (i.e., (ε, δ)-) differential privacy definitions. We derive the utility guarantees of LRM and provide guidance on how to set the privacy parameters, given the user's utility expectation. Extensive experiments using real data demonstrate that our proposed method consistently outperforms state-of-the-art query processing solutions under differential privacy, by large margins. MOE (Min. of Education, S’pore) Accepted version 2017-07-27T08:09:21Z 2019-12-06T14:29:48Z 2017-07-27T08:09:21Z 2019-12-06T14:29:48Z 2015 Journal Article Yuan, G., Zhang, Z., Winslett, M., Xiao, X., Yang, Y., & Hao, Z. (2015). Optimizing Batch Linear Queries under Exact and Approximate Differential Privacy. ACM Transactions on Database Systems, 40(2), 11-. 0362-5915 https://hdl.handle.net/10356/81387 http://hdl.handle.net/10220/43472 10.1145/2699501 en ACM Transactions on Database Systems © 2015 ACM. This is the author created version of a work that has been peer reviewed and accepted for publication by ACM Transactions on Database Systems, ACM. It incorporates referee’s comments but changes resulting from the publishing process, such as copyediting, structural formatting, may not be reflected in this document. The published version is available at: [http://dx.doi.org/10.1145/2699501]. 45 p. application/pdf |
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Nanyang Technological University |
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Singapore |
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English |
| topic |
Linear counting query Differential privacy |
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Linear counting query Differential privacy Yuan, Ganzhao Zhang, Zhenjie Winslett, Marianne Xiao, Xiaokui Yang, Yin Hao, Zhifeng Optimizing Batch Linear Queries under Exact and Approximate Differential Privacy |
| description |
Differential privacy is a promising privacy-preserving paradigm for statistical query processing over sensitive data. It works by injecting random noise into each query result such that it is provably hard for the adversary to infer the presence or absence of any individual record from the published noisy results. The main objective in differentially private query processing is to maximize the accuracy of the query results while satisfying the privacy guarantees. Previous work, notably Li et al. [2010], has suggested that, with an appropriate strategy, processing a batch of correlated queries as a whole achieves considerably higher accuracy than answering them individually. However, to our knowledge there is currently no practical solution to find such a strategy for an arbitrary query batch; existing methods either return strategies of poor quality (often worse than naive methods) or require prohibitively expensive computations for even moderately large domains. Motivated by this, we propose a low-rank mechanism (LRM), the first practical differentially private technique for answering batch linear queries with high accuracy. LRM works for both exact (i.e., ε-) and approximate (i.e., (ε, δ)-) differential privacy definitions. We derive the utility guarantees of LRM and provide guidance on how to set the privacy parameters, given the user's utility expectation. Extensive experiments using real data demonstrate that our proposed method consistently outperforms state-of-the-art query processing solutions under differential privacy, by large margins. |
| author2 |
School of Computer Science and Engineering |
| author_facet |
School of Computer Science and Engineering Yuan, Ganzhao Zhang, Zhenjie Winslett, Marianne Xiao, Xiaokui Yang, Yin Hao, Zhifeng |
| format |
Article |
| author |
Yuan, Ganzhao Zhang, Zhenjie Winslett, Marianne Xiao, Xiaokui Yang, Yin Hao, Zhifeng |
| author_sort |
Yuan, Ganzhao |
| title |
Optimizing Batch Linear Queries under Exact and Approximate Differential Privacy |
| title_short |
Optimizing Batch Linear Queries under Exact and Approximate Differential Privacy |
| title_full |
Optimizing Batch Linear Queries under Exact and Approximate Differential Privacy |
| title_fullStr |
Optimizing Batch Linear Queries under Exact and Approximate Differential Privacy |
| title_full_unstemmed |
Optimizing Batch Linear Queries under Exact and Approximate Differential Privacy |
| title_sort |
optimizing batch linear queries under exact and approximate differential privacy |
| publishDate |
2017 |
| url |
https://hdl.handle.net/10356/81387 http://hdl.handle.net/10220/43472 |
| _version_ |
1681043867137212416 |