Verifiably encrypted signatures without random oracles

Xiang Xue Li; Ke Fei Chen; Sheng Li Liu; Shi Qun Li

Verifiably encrypted signatures without random oracles

Xiang Xue Li, Ke Fei Chen, Sheng Li Liu, Shi Qun Li

Research output: Contribution to journal › Article › peer-review

Abstract

Verifiably encrypted signatures are employed when a signer wants to sign a message for a verifier but does not want the verifier to possess his signature on the message until some certain requirements of his are satisfied. This paper presented new verifiably encrypted signatures from bilinear pairings. The proposed signatures share the properties of simplicity and efficiency with existing verifiably encrypted signature schemes. To support the proposed scheme, it also exhibited security proofs that do not use random oracle assumption. For existential unforgeability, there exist tight security reductions from the proposed verifiably encrypted signature scheme to a strong but reasonable computational assumption.

Original language	English
Pages (from-to)	230-235
Number of pages	6
Journal	Journal of Shanghai Jiaotong University (Science)
Volume	11 E
Issue number	2
State	Published - Jun 2006
Externally published	Yes

Keywords

Pairings
Short signatures
Tight security reduction
Verifiably encrypted signature

Cite this

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title = "Verifiably encrypted signatures without random oracles",

abstract = "Verifiably encrypted signatures are employed when a signer wants to sign a message for a verifier but does not want the verifier to possess his signature on the message until some certain requirements of his are satisfied. This paper presented new verifiably encrypted signatures from bilinear pairings. The proposed signatures share the properties of simplicity and efficiency with existing verifiably encrypted signature schemes. To support the proposed scheme, it also exhibited security proofs that do not use random oracle assumption. For existential unforgeability, there exist tight security reductions from the proposed verifiably encrypted signature scheme to a strong but reasonable computational assumption.",

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AU - Li, Xiang Xue

AU - Chen, Ke Fei

AU - Liu, Sheng Li

AU - Li, Shi Qun

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Y1 - 2006/6

N2 - Verifiably encrypted signatures are employed when a signer wants to sign a message for a verifier but does not want the verifier to possess his signature on the message until some certain requirements of his are satisfied. This paper presented new verifiably encrypted signatures from bilinear pairings. The proposed signatures share the properties of simplicity and efficiency with existing verifiably encrypted signature schemes. To support the proposed scheme, it also exhibited security proofs that do not use random oracle assumption. For existential unforgeability, there exist tight security reductions from the proposed verifiably encrypted signature scheme to a strong but reasonable computational assumption.

AB - Verifiably encrypted signatures are employed when a signer wants to sign a message for a verifier but does not want the verifier to possess his signature on the message until some certain requirements of his are satisfied. This paper presented new verifiably encrypted signatures from bilinear pairings. The proposed signatures share the properties of simplicity and efficiency with existing verifiably encrypted signature schemes. To support the proposed scheme, it also exhibited security proofs that do not use random oracle assumption. For existential unforgeability, there exist tight security reductions from the proposed verifiably encrypted signature scheme to a strong but reasonable computational assumption.

KW - Pairings

KW - Short signatures

KW - Tight security reduction

KW - Verifiably encrypted signature

UR - https://www.scopus.com/pages/publications/33747837749

M3 - 文章

AN - SCOPUS:33747837749

SN - 1007-1172

VL - 11 E

SP - 230

EP - 235

JO - Journal of Shanghai Jiaotong University (Science)

JF - Journal of Shanghai Jiaotong University (Science)

IS - 2

ER -

Verifiably encrypted signatures without random oracles

Abstract

Keywords

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