An extended framework of privacy-preserving computation with flexible access control
Cloud computing offers various services based on outsourced data by utilizing its huge volume of resources and great computation capability. However, it also makes users lose full control over their data. To avoid the leakage of user data privacy, encrypted data are preferred to be uploaded and stor...
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2020
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sg-smu-ink.sis_research-63012020-10-08T05:26:37Z An extended framework of privacy-preserving computation with flexible access control DING, Wenxiu HU, Rui YAN, Zheng QIAN, Xinren DENG, Robert H. YANG, Laurence T. DONG, Mianxiong Cloud computing offers various services based on outsourced data by utilizing its huge volume of resources and great computation capability. However, it also makes users lose full control over their data. To avoid the leakage of user data privacy, encrypted data are preferred to be uploaded and stored in the cloud, which unfortunately complicates data analysis and access control. In particular, few existing works consider the fine-grained access control over the computational results from ciphertexts. Though our previous work proposed a framework to support several basic computations (such as addition, multiplication and comparison) with flexible access control, privacy-preserving division calculations over encrypted data, as a crucial operation in many statistical processes and machine learning algorithms, is neglected. In this paper, we propose four privacy-preserving division computation schemes with flexible access control to fill this gap, which can adapt to various application scenarios. Furthermore, we extend a division scheme over encrypted integers to support privacy-preserving division over multiple data types including fixed-point numbers and fractional numbers. Finally, we give their security proof and show their efficiency and superiority through comprehensive simulations and comparisons with existing work. 2020-06-01T07:00:00Z text application/pdf https://ink.library.smu.edu.sg/sis_research/5298 info:doi/10.1109/TNSM.2019.2952462 https://ink.library.smu.edu.sg/context/sis_research/article/6301/viewcontent/Extended_framework_privacy_preserving_av.pdf http://creativecommons.org/licenses/by-nc-nd/4.0/ Research Collection School Of Computing and Information Systems eng Institutional Knowledge at Singapore Management University Access control Computational modeling Cloud computing Protocols Servers Encryption Cloud computing secure division computation privacy preservation data security Information Security |
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Access control Computational modeling Cloud computing Protocols Servers Encryption Cloud computing secure division computation privacy preservation data security Information Security |
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Access control Computational modeling Cloud computing Protocols Servers Encryption Cloud computing secure division computation privacy preservation data security Information Security DING, Wenxiu HU, Rui YAN, Zheng QIAN, Xinren DENG, Robert H. YANG, Laurence T. DONG, Mianxiong An extended framework of privacy-preserving computation with flexible access control |
| description |
Cloud computing offers various services based on outsourced data by utilizing its huge volume of resources and great computation capability. However, it also makes users lose full control over their data. To avoid the leakage of user data privacy, encrypted data are preferred to be uploaded and stored in the cloud, which unfortunately complicates data analysis and access control. In particular, few existing works consider the fine-grained access control over the computational results from ciphertexts. Though our previous work proposed a framework to support several basic computations (such as addition, multiplication and comparison) with flexible access control, privacy-preserving division calculations over encrypted data, as a crucial operation in many statistical processes and machine learning algorithms, is neglected. In this paper, we propose four privacy-preserving division computation schemes with flexible access control to fill this gap, which can adapt to various application scenarios. Furthermore, we extend a division scheme over encrypted integers to support privacy-preserving division over multiple data types including fixed-point numbers and fractional numbers. Finally, we give their security proof and show their efficiency and superiority through comprehensive simulations and comparisons with existing work. |
| format |
text |
| author |
DING, Wenxiu HU, Rui YAN, Zheng QIAN, Xinren DENG, Robert H. YANG, Laurence T. DONG, Mianxiong |
| author_facet |
DING, Wenxiu HU, Rui YAN, Zheng QIAN, Xinren DENG, Robert H. YANG, Laurence T. DONG, Mianxiong |
| author_sort |
DING, Wenxiu |
| title |
An extended framework of privacy-preserving computation with flexible access control |
| title_short |
An extended framework of privacy-preserving computation with flexible access control |
| title_full |
An extended framework of privacy-preserving computation with flexible access control |
| title_fullStr |
An extended framework of privacy-preserving computation with flexible access control |
| title_full_unstemmed |
An extended framework of privacy-preserving computation with flexible access control |
| title_sort |
extended framework of privacy-preserving computation with flexible access control |
| publisher |
Institutional Knowledge at Singapore Management University |
| publishDate |
2020 |
| url |
https://ink.library.smu.edu.sg/sis_research/5298 https://ink.library.smu.edu.sg/context/sis_research/article/6301/viewcontent/Extended_framework_privacy_preserving_av.pdf |
| _version_ |
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