Encrypted data processing with Homomorphic Re-Encryption
Cloud computing offers various services to users by re-arranging storage and computing resources. In order to preserve data privacy, cloud users may choose to upload encrypted data rather than raw data to the cloud. However, processing and analyzing encrypted data are challenging problems, which hav...
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2017
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sg-smu-ink.sis_research-46782020-01-12T04:46:13Z Encrypted data processing with Homomorphic Re-Encryption DING, Wenxiu YAN, Zheng DENG, Robert H. Cloud computing offers various services to users by re-arranging storage and computing resources. In order to preserve data privacy, cloud users may choose to upload encrypted data rather than raw data to the cloud. However, processing and analyzing encrypted data are challenging problems, which have received increasing attention in recent years. Homomorphic Encryption (HE) was proposed to support computation on encrypted data and ensure data confidentiality simultaneously. However, a limitation of HE is it is a single user system, which means it only allows the party that owns a homomorphic decryption key to decrypt processed ciphertexts. Original HE cannot support multiple users to access the processed ciphertexts flexibly. In this paper, we propose a Privacy-Preserving Data Processing (PPDP) system with the support of a Homomorphic Re-Encryption Scheme (HRES). The HRES extends partial HE from a single-user system to a multi-user one by offering ciphertext re-encryption to allow multiple users to access processed ciphertexts. Through the cooperation of a Data Service Provider (DSP) and an Access Control Server (ACS), the PPDP system can support seven basic operations over ciphertexts, which include Addition, Subtraction, Multiplication, Sign Acquisition, Comparison, Equivalent Test, and Variance. To enhance the flexibility and security of our system, we further apply multiple ACSs to take in charge of the data from their own users and design computing operations over ciphertexts belonging to multiple ACSs. We then prove the security of PPDP, analyze its performance and advantages by comparing with some latest work, and demonstrate its efficiency and effectiveness through simulations with regard to big data process. 2017-05-01T07:00:00Z text application/pdf https://ink.library.smu.edu.sg/sis_research/3676 info:doi/10.1016/j.ins.2017.05.004 https://ink.library.smu.edu.sg/context/sis_research/article/4678/viewcontent/1_s20_S0020025516322563_main.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 Cloud Computing Data sharing Homomorphic encryption Privacy preservation Proxy re-encryption Databases and Information Systems Information Security |
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Access control Cloud Computing Data sharing Homomorphic encryption Privacy preservation Proxy re-encryption Databases and Information Systems Information Security DING, Wenxiu YAN, Zheng DENG, Robert H. Encrypted data processing with Homomorphic Re-Encryption |
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Cloud computing offers various services to users by re-arranging storage and computing resources. In order to preserve data privacy, cloud users may choose to upload encrypted data rather than raw data to the cloud. However, processing and analyzing encrypted data are challenging problems, which have received increasing attention in recent years. Homomorphic Encryption (HE) was proposed to support computation on encrypted data and ensure data confidentiality simultaneously. However, a limitation of HE is it is a single user system, which means it only allows the party that owns a homomorphic decryption key to decrypt processed ciphertexts. Original HE cannot support multiple users to access the processed ciphertexts flexibly. In this paper, we propose a Privacy-Preserving Data Processing (PPDP) system with the support of a Homomorphic Re-Encryption Scheme (HRES). The HRES extends partial HE from a single-user system to a multi-user one by offering ciphertext re-encryption to allow multiple users to access processed ciphertexts. Through the cooperation of a Data Service Provider (DSP) and an Access Control Server (ACS), the PPDP system can support seven basic operations over ciphertexts, which include Addition, Subtraction, Multiplication, Sign Acquisition, Comparison, Equivalent Test, and Variance. To enhance the flexibility and security of our system, we further apply multiple ACSs to take in charge of the data from their own users and design computing operations over ciphertexts belonging to multiple ACSs. We then prove the security of PPDP, analyze its performance and advantages by comparing with some latest work, and demonstrate its efficiency and effectiveness through simulations with regard to big data process. |
| format |
text |
| author |
DING, Wenxiu YAN, Zheng DENG, Robert H. |
| author_facet |
DING, Wenxiu YAN, Zheng DENG, Robert H. |
| author_sort |
DING, Wenxiu |
| title |
Encrypted data processing with Homomorphic Re-Encryption |
| title_short |
Encrypted data processing with Homomorphic Re-Encryption |
| title_full |
Encrypted data processing with Homomorphic Re-Encryption |
| title_fullStr |
Encrypted data processing with Homomorphic Re-Encryption |
| title_full_unstemmed |
Encrypted data processing with Homomorphic Re-Encryption |
| title_sort |
encrypted data processing with homomorphic re-encryption |
| publisher |
Institutional Knowledge at Singapore Management University |
| publishDate |
2017 |
| url |
https://ink.library.smu.edu.sg/sis_research/3676 https://ink.library.smu.edu.sg/context/sis_research/article/4678/viewcontent/1_s20_S0020025516322563_main.pdf |
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