Decentralized Biometric Authentication based on Fuzzy Commitments and Blockchain

arXiv - CS - Cryptography and Security Pub Date : 2024-09-17 DOI:arxiv-2409.11303

Nibras Abo Alzahab, Giulia Rafaiani, Massimo Battaglioni, Franco Chiaraluce, Marco Baldi

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Abstract

Blockchain technology, which was introduced for supporting cryptocurrencies, today provides a decentralized infrastructure for general information storage and execution of algorithms, thus enabling the conversion of many applications and services from a centralized and intermediated model to a decentralized and disintermediated one. In this paper we focus on biometric authentication, which is classically performed using centralized systems, and could hence benefit from decentralization. For such a purpose, however, an inherent contradiction between biometric applications and blockchain technology must be overcome, as the former require keeping biometric features private, while blockchain is a public infrastructure. We propose a blockchain-based biometric authentication protocol that enables decentralization and resilience while protecting the privacy, personal data, and, in particular, biometric features of users. The protocol we propose leverages fuzzy commitment schemes to allow biometric authentication to be performed without disclosing biometric data. We also analyze the security of the protocol we propose by considering some relevant attacks.

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基于模糊承诺和区块链的去中心化生物鉴别技术

区块链技术是为支持加密货币而引入的，如今它为一般信息的存储和算法的执行提供了一种去中心化的基础设施，从而使许多应用和服务从中心化的中介模式转变为去中心化的非中介模式。本文的重点是生物识别身份验证，这种身份验证通常使用集中式系统，因此可以从去中心化中受益。不过，要实现这一目的，必须克服生物识别应用与区块链技术之间的内在矛盾，因为前者要求保持生物识别特征的私密性，而区块链是一种公共基础设施。我们提出了一种基于区块链的生物识别认证协议，它既能实现去中心化和弹性，又能保护用户的隐私、个人数据，尤其是生物识别特征。我们提出的协议利用模糊承诺方案，允许在不披露生物识别数据的情况下进行生物识别认证。我们还通过考虑一些相关的攻击来分析我们提出的协议的安全性。

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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arXiv - CS - Cryptography and Security

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