Your search keyword '"Jinqiu Hou"' showing total 2 results

1. Quantum-Resistant Multi-Feature Attribute-Based Proxy Re-Encryption Scheme for Cloud Services.

Author

Jinqiu Hou, Changgen Peng, Weijie Tan, and Hongfa Ding

Subjects

NUMBER theory, COMPUTER performance, INFORMATION sharing, DATA security, PROBLEM solving, ACCESS control, CLOUD computing

Abstract

Cloud-based services have powerful storage functions and can provide accurate computation. However, the question of how to guarantee cloud-based services access control and achieve data sharing security has always been a research highlight. Although the attribute-based proxy re-encryption (ABPRE) schemes based on number theory can solve this problem, it is still difficult to resist quantum attacks and have limited expression capabilities. To address these issues, we present a novel linear secret sharing schemes (LSSS) matrix-based ABPRE scheme with the fine-grained policy on the lattice in the research. Additionally, to detect the activities of illegal proxies, homomorphic signature (HS) technology is introduced to realize the verifiability of re-encryption. Moreover, the non-interactivity, unidirectionality, proxy transparency, multi-use, and anti-quantum attack characteristics of our system are all advantageous. Besides, it can efficiently prevent the loss of processing power brought on by repetitive authorisation and can enable precise and safe data sharing in the cloud. Furthermore, under the standard model, the proposed learning with errors (LWE)-based scheme was proven to be IND-sCPA secure. [ABSTRACT FROM AUTHOR]

Published

2024

2. Identity-Based Multi-bit Proxy Re-encryption Over Lattice in the Standard Model

Author

Mingming Jiang, Wangan Song, Yuyan Guo, and Jinqiu Hou

Subjects

Theoretical computer science, Computer science, Lattice (order), Secrecy, Gaussian sampling, Special property, Data_CODINGANDINFORMATIONTHEORY, Proxy re-encryption, Learning with errors, Random oracle

Abstract

Proxy re-encryption (PRE) allows a semi-trusted proxy to turn Alice’s ciphertexts into Bob’s ciphertexts, however, the proxy cannot get the corresponding plaintexts. Because of the special property, PRE achieves good reliability and secrecy. Nevertheless, most of the proposed proxy re-encryption schemes are based on the number theoretic problem and their security are proved in the random oracle. Therefore, this paper constructs an efficient and novel identity-based multi-bit PRE scheme based on the learning with errors (LWE) assumption and can resist to quantum attack. What’s more, it is proved to be CPA secure in the standard model and has the properties of multi-use and bidirectional.

Published

2018