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引用次数: 0
摘要
通用可组合性(UC)具有任意组合的优势,是设计遗忘传输(OT)的主要安全因素。然而,与基于前量子假设的构造相比,对网格上 UC 安全 OT 的研究还远远落后。Quach 根据带错误学习(LWE)假设,提出了一种双模式加密方案(SCN'20),用于推导双轮 OT,其安全性在通用参考字符串(CRS)模型中可证明是 UC 安全的。由于使用了 Benhamouda 等人提出的随机舍入函数(PKC'18),这种 OT 只能局限于传输单比特信息。因此,在传输多比特串时,对 Quach 的 OT 进行微不足道的重复将耗费大量成本。在这项工作中,我们提出了一种在决策 LWE 假设下的改进型双模加密密码系统,并由此推导出了一种 UC 安全字符串加时赛,它既具有完整的双模安全性,又能提高传输字符串的效率。我们采用的密钥技术是 Jiang 等人提出的密钥调和方案(PKC'20),利用该方案将单比特对称加密密钥(由上述舍入函数产生)扩展到多比特情况。通过全面的性能分析,我们证明了我们的建议确实能在安全性和效率之间取得平衡。
Dual-Mode Encryption for UC-Secure String OT from Learning with Errors
Universal composability (UC) is a primary security flavor for designing oblivious transfer (OT) due to its advantage of arbitrary composition. However, the study of UC-secure OT over lattices is still far behind compared with constructions over prequantum assumptions. Relying on the learning with errors (LWE) assumption, Quach proposes a dual-mode encryption scheme (SCN’20) for deriving a two-round OT whose security is provably UC-secure in the common reference string (CRS) model. Due to its use of a randomized rounding function proposed by Benhamouda et al. (PKC’18), this OT can only be limited to transmitting single-bit messages. Therefore, conducting trivial repetitions of Quach’s OT when transmitting multibit strings would be very costly. In this work, we put forward a modified dual-mode encryption cryptosystem under the decisional LWE assumption, from which we can derive a UC-secure string OT with both full-fledged dual-mode security and better efficiency on transmitting strings. The key technique we adopt is a key reconciliation scheme proposed by Jiang et al. (PKC’20), which is utilized to extend the single-bit symmetric encryption key (produced by the aforementioned rounding function) to a multibit case. Through a comprehensive performance analysis, we demonstrate that our proposal can indeed strike a balance between security and efficiency.
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
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