Abstract
With the development of wireless sensor networks, IoT devices are crucial for the Smart City; these devices change people’s lives such as e-payment and e-voting systems. However, in these two systems, the state-of-art authentication protocols based on traditional number theory cannot defeat a quantum computer attack. In order to protect user privacy and guarantee trustworthy of big data, we propose a new identity-based blind signature scheme based on number theorem research unit lattice, this scheme mainly uses a rejection sampling theorem instead of constructing a trapdoor. Meanwhile, this scheme does not depend on complex public key infrastructure and can resist quantum computer attack. Then we design an e-payment protocol using the proposed scheme. Furthermore, we prove our scheme is secure in the random oracle, and satisfies confidentiality, integrity, and non-repudiation. Finally, we demonstrate that the proposed scheme outperforms the other traditional existing identity-based blind signature schemes in signing speed and verification speed, outperforms the other lattice-based blind signature in signing speed, verification speed, and signing secret key size.
Highlights
With the development of wireless sensor networks, Internet of Things (IoT) devices play an important role in smart cities
A large amount data generated by these IoT devices face the threats of security and privacy leakage since the state-of-art authentication protocols in e-payment and e-voting systems can be attacked by quantum computers successfully [4], i.e., in e-payment and e-voting systems, blind signature (BS) is crucial to protect user privacy and guarantee trustworthy of big data in the cloud [5,6,7,8]
The signature size of our identity-based BS (IDBS)-number theory research unit lattice (NTRU) scheme is 2nlog(12σ ) + n(logλ + 1), it is shorter than Rückert scheme, but it is larger than GHWX, ZTZ, and ZM schemes
Summary
With the development of wireless sensor networks, Internet of Things (IoT) devices play an important role in smart cities. A large amount data generated by these IoT devices face the threats of security and privacy leakage since the state-of-art authentication protocols in e-payment and e-voting systems can be attacked by quantum computers successfully [4], i.e., in e-payment and e-voting systems, blind signature (BS) is crucial to protect user privacy and guarantee trustworthy of big data in the cloud [5,6,7,8] These schemes based on traditional number theory can be attacked successfully by quantum computer. A new IDBS based on DLP was presented, the running time and signature size of their scheme [10] were significantly improved These schemes still face the threat of quantum computer attack [4].
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