标准模型中基于可撤销身份的匹配加密

IF 1.3 4区计算机科学 Q3 COMPUTER SCIENCE, INFORMATION SYSTEMS

IET Information Security Pub Date : 2023-05-09 DOI:10.1049/ise2.12116

Zhe Jiang, Xiwen Wang, Kai Zhang, Junqing Gong, Jie Chen, Haifeng Qian

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引用次数: 0

摘要

基于身份的配对加密（IB-ME）是配对加密（CRYPTO 2019）的扩展概念，其中发送方和接收方可以为另一方指定访问策略。在IB-ME中，数据加密不仅通过接收方身份来执行，还通过发送方的加密密钥来执行。然而，以前的IB-ME方案没有考虑有效撤销的问题。因此，作者引入了可撤销IB-ME（RIB-ME）的新概念，并将RIB-ME的语法和安全模型形式化。特别是，作者在标准模型中给出了一个有效而简单的RIB-ME构造，其安全性降低到决策双线性Diffie-Hellman问题和计算Diffie-Hell man问题的硬度。此外，作者还展示了我们的RIB-ME方案的两个扩展，以考虑所选密文的安全性和前向隐私。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Revocable identity-based matchmaking encryption in the standard model

Identity-based Matchmaking Encryption (IB-ME) is an extension notion of matchmaking encryption (CRYPTO 2019), where a sender and a receiver can specify an access policy for the other party. In IB-ME, data encryption is performed by not only a receiver identity but also a sender's encryption key. Nevertheless, previous IB-ME schemes have not considered the problem of efficient revocation. Hence, the authors introduce a new notion of revocable IB-ME (RIB-ME) and formalise the syntax and security model of RIB-ME. In particular, the authors give an effective and simple construction of RIB-ME in the standard model, whose security is reduced to the hardness of decisional bilinear Diffie—Hellman problem and computational Diffie—Hellman problem. In addition, the authors show two extensions of our RIB-ME scheme to consider chosen-ciphertext security and forward privacy.

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来源期刊

IET Information Security 工程技术-计算机：理论方法

CiteScore

3.80

自引率

7.10%

发文量

审稿时长

8.6 months

期刊介绍： IET Information Security publishes original research papers in the following areas of information security and cryptography. Submitting authors should specify clearly in their covering statement the area into which their paper falls. Scope: Access Control and Database Security Ad-Hoc Network Aspects Anonymity and E-Voting Authentication Block Ciphers and Hash Functions Blockchain, Bitcoin (Technical aspects only) Broadcast Encryption and Traitor Tracing Combinatorial Aspects Covert Channels and Information Flow Critical Infrastructures Cryptanalysis Dependability Digital Rights Management Digital Signature Schemes Digital Steganography Economic Aspects of Information Security Elliptic Curve Cryptography and Number Theory Embedded Systems Aspects Embedded Systems Security and Forensics Financial Cryptography Firewall Security Formal Methods and Security Verification Human Aspects Information Warfare and Survivability Intrusion Detection Java and XML Security Key Distribution Key Management Malware Multi-Party Computation and Threshold Cryptography Peer-to-peer Security PKIs Public-Key and Hybrid Encryption Quantum Cryptography Risks of using Computers Robust Networks Secret Sharing Secure Electronic Commerce Software Obfuscation Stream Ciphers Trust Models Watermarking and Fingerprinting Special Issues. Current Call for Papers: Security on Mobile and IoT devices - https://digital-library.theiet.org/files/IET_IFS_SMID_CFP.pdf