A Verifiable Multi-recipient Encryption Scheme from Multilinear Maps

Author

Zhengjun Jing ; Guoping Jiang ; Chunsheng Gu

Author_Institution

Coll. of Comput., Nanjing Univ. of Posts & Telecommun., Nanjing, China

fYear

2014

fDate

8-10 Nov. 2014

Firstpage

151

Lastpage

156

Abstract

Multi-recipient encryption is an important public key cryptosystem, which can be applied for a variety of purposes, such as broadcasting data. In order to design an secure multi-recipient public key encryption (MRPKE) in post-quantum era, in this paper, we construct a novel MRPKE scheme base on Garg-Gentry-Halevi (GGH) framework which is a graded algebras analogue of multilinear maps from ideal lattice. Under the grade decisional Diffie-Hellman (GDDH) assumption of GGH, the proposed scheme has semantically safety against chosen plaintext attack (CPA). At the same time, each recipient, without first decrypting, can verify whether the message to be received is from a legitimate sender. Furthermore, the encryption and decryption only involves the polynomial modular addition and multiplication in polynomial ring, so the efficiency of the proposed scheme is higher.

Keywords

lattice theory; public key cryptography; CPA; GDDH assumption; GGH framework; Garg-Gentry-Halevi framework; MRPKE scheme; chosen plaintext attack; grade decisional Diffie-Hellman assumption; ideal lattice; multilinear maps; multirecipient public key encryption; polynomial modular addition; polynomial modular multiplication; polynomial ring; public key cryptosystem; verifiable multirecipient encryption scheme; Encoding; Encryption; Lattices; Polynomials; Public key; m multi-recipient; multilinear maps; public key encryption; verifiable;

fLanguage

English

Publisher

ieee

Conference_Titel

P2P, Parallel, Grid, Cloud and Internet Computing (3PGCIC), 2014 Ninth International Conference on

Conference_Location

Guangdong

Type

conf

DOI

10.1109/3PGCIC.2014.49

Filename

7024572