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Title:
PRE: Stronger security notions and efficient construction with non-interactive opening
Author: Zhang, Jiang (1) ; Zhang, Zhenfeng (1) ; Chen, Yu (3)
Corresponding Author: Zhang, Zhenfeng
Keyword: Public key encryption ; Proxy re-encryption ; Chosen key model ; Knowledge of secret key model ; Chosen-ciphertext security ; DBDH
Source: Theoretical Computer Science
Issued Date: 2014
Volume: 542, Pages:1-16
Indexed Type: SCI ; EI
Department: (1) Trusted Computing and Information Assurance Laboratory, Institute of Software, Chinese Academy of Sciences, Beijing 100190, China; (2) State Key Laboratory of Computer Science, Institute of Software, Chinese Academy of Sciences, Beijing 100190, China; (3) State Key Laboratory of Information Security, Institute of Information Engineering, Chinese Academy of Sciences, Beijing 100093, China
Abstract: In a proxy re-encryption (PRE) scheme, a proxy is given a re-encryption key and has the ability to translate a ciphertext under one key into a ciphertext of the same message under a different key, without learning anything about the message encrypted under either key. This paper first shows that the chosen key (CK) model which allows the adversary to adaptively choose public keys for malicious users, is strictly stronger than the knowledge of secret key models (KOSK) that most of previous PREs rely on. Then, the paper presents an efficient CCA secure PRE scheme in the stronger CK model based on the decisional bilinear Diffie-Hellman (DBDH) assumption without the random oracle heuristic. The paper also considers a useful property in PRE applications, namely, "non-interactive opening" and an extended scheme is given to support the property. Compared with previous schemes, the PRE scheme in this paper has a good overall performance in terms of ciphertext length, computational cost, strong and realistic security model as well as a well-studied assumption.
English Abstract: In a proxy re-encryption (PRE) scheme, a proxy is given a re-encryption key and has the ability to translate a ciphertext under one key into a ciphertext of the same message under a different key, without learning anything about the message encrypted under either key. This paper first shows that the chosen key (CK) model which allows the adversary to adaptively choose public keys for malicious users, is strictly stronger than the knowledge of secret key models (KOSK) that most of previous PREs rely on. Then, the paper presents an efficient CCA secure PRE scheme in the stronger CK model based on the decisional bilinear Diffie-Hellman (DBDH) assumption without the random oracle heuristic. The paper also considers a useful property in PRE applications, namely, "non-interactive opening" and an extended scheme is given to support the property. Compared with previous schemes, the PRE scheme in this paper has a good overall performance in terms of ciphertext length, computational cost, strong and realistic security model as well as a well-studied assumption.
Language: 英语
WOS ID: WOS:000339039900001
Citation statistics:
Content Type: 期刊论文
URI: http://ir.iscas.ac.cn/handle/311060/16845
Appears in Collections:软件所图书馆_期刊论文

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Recommended Citation:
Zhang, Jiang ,Zhang, Zhenfeng ,Chen, Yu . PRE: Stronger security notions and efficient construction with non-interactive opening[J]. Theoretical Computer Science,2014-01-01,542:1-16.
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