Using MOPSO for Optimizing Randomized Response Schemes in Privacy Computing

Using MOPSO for Optimizing Randomized Response Schemes in Privacy Computing

It is a challenging concern in data collecting, publishing, and mining when personal information is controlled by untrustworthy cloud services with unpredictable risks for privacy leakages. In this paper, we formulate an information-theoretic model for privacy protection and present a concrete solut...

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Main Authors: Zhiqiang Gao, Xiaolong Cui, Yanyu Duan, Zhang Jun, Zhensheng Peng
Format: Article
Language:English
Published: Hindawi Limited 2018-01-01
Series:Mathematical Problems in Engineering
Online Access:http://dx.doi.org/10.1155/2018/7846547
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spelling doaj-dcfd6b2bd6114557b0be39609f2aff8a2020-11-25T00:48:57ZengHindawi LimitedMathematical Problems in Engineering1024-123X1563-51472018-01-01201810.1155/2018/78465477846547Using MOPSO for Optimizing Randomized Response Schemes in Privacy ComputingZhiqiang Gao0Xiaolong Cui1Yanyu Duan2Zhang Jun3Zhensheng Peng4Department of Information Engineering, Engineering University of Chinese People’s Armed Police Force, Xi'an, ChinaDepartment of Information Engineering, Engineering University of Chinese People’s Armed Police Force, Xi'an, ChinaDepartment of Information Engineering, Engineering University of Chinese People’s Armed Police Force, Xi'an, ChinaDepartment of Information Engineering, Engineering University of Chinese People’s Armed Police Force, Xi'an, ChinaDepartment of Information Engineering, Engineering University of Chinese People’s Armed Police Force, Xi'an, ChinaIt is a challenging concern in data collecting, publishing, and mining when personal information is controlled by untrustworthy cloud services with unpredictable risks for privacy leakages. In this paper, we formulate an information-theoretic model for privacy protection and present a concrete solution to theoretical architecture in privacy computing from the perspectives of quantification and optimization. Thereinto, metrics of privacy and utility for randomized response (RR) which satisfy differential privacy are derived as average mutual information and average distortion rate under the information-theoretic model. Finally, a discrete multiobjective particle swarm optimization (MOPSO) is proposed to search optimal RR distorted matrices. To the best of our knowledge, our proposed approach is the first solution to optimize RR distorted matrices using discrete MOPSO. In detail, particles’ position and velocity are redefined in the problem-guided initialization and velocity updating mechanism. Two mutation strategies are introduced to escape from local optimum. The experimental results illustrate that our approach outperforms existing state-of-the-art works and can contribute optimal Pareto solutions of extensive RR schemes to future study.http://dx.doi.org/10.1155/2018/7846547
collection DOAJ
language English
format Article
sources DOAJ
author Zhiqiang Gao
Xiaolong Cui
Yanyu Duan
Zhang Jun
Zhensheng Peng
spellingShingle Zhiqiang Gao
Xiaolong Cui
Yanyu Duan
Zhang Jun
Zhensheng Peng
Using MOPSO for Optimizing Randomized Response Schemes in Privacy Computing
Mathematical Problems in Engineering
author_facet Zhiqiang Gao
Xiaolong Cui
Yanyu Duan
Zhang Jun
Zhensheng Peng
author_sort Zhiqiang Gao
title Using MOPSO for Optimizing Randomized Response Schemes in Privacy Computing
title_short Using MOPSO for Optimizing Randomized Response Schemes in Privacy Computing
title_full Using MOPSO for Optimizing Randomized Response Schemes in Privacy Computing
title_fullStr Using MOPSO for Optimizing Randomized Response Schemes in Privacy Computing
title_full_unstemmed Using MOPSO for Optimizing Randomized Response Schemes in Privacy Computing
title_sort using mopso for optimizing randomized response schemes in privacy computing
publisher Hindawi Limited
series Mathematical Problems in Engineering
issn 1024-123X
1563-5147
publishDate 2018-01-01
description It is a challenging concern in data collecting, publishing, and mining when personal information is controlled by untrustworthy cloud services with unpredictable risks for privacy leakages. In this paper, we formulate an information-theoretic model for privacy protection and present a concrete solution to theoretical architecture in privacy computing from the perspectives of quantification and optimization. Thereinto, metrics of privacy and utility for randomized response (RR) which satisfy differential privacy are derived as average mutual information and average distortion rate under the information-theoretic model. Finally, a discrete multiobjective particle swarm optimization (MOPSO) is proposed to search optimal RR distorted matrices. To the best of our knowledge, our proposed approach is the first solution to optimize RR distorted matrices using discrete MOPSO. In detail, particles’ position and velocity are redefined in the problem-guided initialization and velocity updating mechanism. Two mutation strategies are introduced to escape from local optimum. The experimental results illustrate that our approach outperforms existing state-of-the-art works and can contribute optimal Pareto solutions of extensive RR schemes to future study.
url http://dx.doi.org/10.1155/2018/7846547
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