Identity-Based Chameleon Hashes in the Standard Model for Mobile Devices

IF 6.3 1区计算机科学 Q1 COMPUTER SCIENCE, THEORY & METHODS

IEEE Transactions on Information Forensics and Security Pub Date : 2025-03-17 DOI:10.1109/TIFS.2025.3552196

Cong Li;Xiaoyu Jiao;Xinyu Feng;Anyang Hu;Qingni Shen;Zhonghai Wu

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引用次数: 0

Abstract

Online/offline identity-based signature (OO-IBS) is a versatile cryptographic tool to provide the message authentication and integrity in mobile devices, since it lightens the computational burden after the signer receiving the message and eliminates the overhead of certificate management. It has several valuable applications, for instance, wireless sensor networks. Identity-based chameleon hash (IB-CH), as an alternative building block to construct OO-IBS, has been explored in numerous literatures. Nevertheless, there still exist two major issues. 1) Nearly all of the previous IB-CH schemes with weak collision-resistance (W-CollRes) are with random oracles, which may lead to security risks in practicality. The only IB-CH scheme in the standard model suffers from the large size of public parameters and inefficient setup process. 2) The only IB-CH scheme without key exposure also relies on random oracles. In this paper, we propose two novel IB-CH schemes in the standard model. The first scheme is adaptive identity, W-CollRes secure and efficient, significantly reducing the computation costs of all algorithms and the size of public parameters compared with the existing scheme in the standard model. The second scheme is the first IB-CH achieving key exposure freeness without random oracles. Both theoretical and experimental analyses demonstrate the good performance of our proposed schemes. Furthermore, we apply our schemes to optimizing the existing generic OO-IBS construction. The optimized generic constructions reduce computational overhead by 50.0% in the online phase and enable the hash value/signature tuple generated in the offline phase to be reusable, respectively.

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移动设备标准模型中基于身份的变色龙哈希

在线/离线基于身份的签名（OO-IBS）是一种通用的加密工具，用于在移动设备中提供消息身份验证和完整性，因为它减轻了签名者接收消息后的计算负担，并消除了证书管理的开销。它有几个有价值的应用，例如无线传感器网络。基于身份的变色龙散列（IB-CH）作为构建OO-IBS的备选构建块，已经在众多文献中进行了探讨。然而，仍然存在两个主要问题。1)以往几乎所有抗碰撞能力较弱（W-CollRes）的IB-CH方案都带有随机预言器，在实际应用中可能存在安全风险。标准模型中唯一的IB-CH方案存在公共参数过大和设置过程效率低下的问题。2)唯一没有密钥暴露的IB-CH方案也依赖于随机预言机。本文在标准模型中提出了两种新的IB-CH方案。第一种方案是自适应身份，W-CollRes安全高效，与标准模型中的现有方案相比，大大降低了所有算法的计算成本和公共参数的大小。第二种方案是第一个实现密钥暴露自由的IB-CH，没有随机oracle。理论和实验分析均证明了所提方案的良好性能。此外，我们将我们的方案应用于优化现有的通用OO-IBS结构。优化后的泛型结构在在线阶段减少了50.0%的计算开销，并使脱机阶段生成的哈希值/签名元组可以分别重用。

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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来源期刊

IEEE Transactions on Information Forensics and Security 工程技术-工程：电子与电气

CiteScore

14.40

自引率

7.40%

发文量

234

审稿时长

6.5 months

期刊介绍： The IEEE Transactions on Information Forensics and Security covers the sciences, technologies, and applications relating to information forensics, information security, biometrics, surveillance and systems applications that incorporate these features