Abstract
Broadcast multisignature allows multiple signers to sign the same message, which can be used in many areas, such as electronic contract signing, educational administration management system and grade management system. At present, the security of most broadcast multisignature schemes mainly depends on the intractability of large integer factoring (LIF) or discrete logarithm (DL) problem. Thus, broadcast multisignature schemes will suffer from the potential threat of the quantum computing attacks. Hence, it is an important problem how to solve the quantum computing attacks in traditional broadcast multisignature. In this paper, we construct the first certificateless broadcast multisignature scheme based on multivariate public key cryptosystem (MPKC-CLBMSS), whose security is based on the hardness of the isomorphism of polynomials (IP) problem. MPKC-CLBMSS not only solves the problem of quantum computing attacks, but also avoids the key escrow issue in IB-PKC along with the certificate management problem in traditional PKI. In MPKC-CLBMSS, the signature length is as same as that of the partial signature, regardless of the number of signers; the verification time of signature is as same as for a partial signature. MPKC-CLBMSS has higher computational efficiency than the existing broadcast multisignature scheme. Moreover, the security proof shows that MPKC-CLBMSS satisfies the unforgeability in the random oracle model.
Highlights
Identity-based public key cryptosystem (IB-PKC) [1] can solve the certificate management problem in the traditional public key infrastructure (PKI) [2]
In 2003, Al-Riyami and Paterson [3] presented certificateless public key cryptography (CL-PKC), where the user’s full private key includes the partial private key of user generated by a key generation center (KGC) and a secret value chosen by this user, this shows that the KGC does not know the user’s secret value
As far as we know, most of certificateless broadcast multisignature schemes are based on the traditional public key cryptosystem, whose security mainly depends on the intractability of large integer factoring (LIF) or discrete logarithm (DL) problem
Summary
Identity-based public key cryptosystem (IB-PKC) [1] can solve the certificate management problem in the traditional public key infrastructure (PKI) [2]. H. Yu et al.: Certificateless Broadcast Multisignature Scheme Based on MPKC strong designated verifier using bilinear pairings, but this scheme did not provide the security proof in the random oracle model and had the disadvantage of low computational efficiency. In 2014, Islam and Biswas [12] presented a certificateless short sequential and broadcast multisignature scheme based on bilinear pairings and proved its security in the random oracle model. As far as we know, most of certificateless broadcast multisignature schemes are based on the traditional public key cryptosystem, whose security mainly depends on the intractability of large integer factoring (LIF) or discrete logarithm (DL) problem. A. CONTRIBUTIONS In this paper, we construct a new certificateless broadcast multisignature scheme based on MPKC (MPKC-CLBMSS), which solves the certificate management problem in PKI and the key escrow problem in IB-PKC. The sixth section is a summary of the whole paper
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