Bimodal Biometric System for Cryptographic Key Generation Using Wavelet Transforms

2009 Mexican International Conference on Computer Science Pub Date : 2009-09-21 DOI:10.1109/ENC.2009.25

H. A. Garcia-Baleon, V. Aquino, O. Starostenko, J. Ramírez-Cruz

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引用次数: 10

Abstract

In this paper we present a bimodal biometric system for cryptographic key generation that works with speech and electrocardiogram (ECG) signals using wavelet transforms. This work is based on the uniqueness and quasi-stationary behavior of ECG and speech signals with respect to an individual. The architecture of the proposed system considers three security factors, namely, user password, biometric samples, and a token. The stages that comprise the architecture are \textit{one time enrollment} and \textit{key derivation}. The system architecture is able to verify the identity of individuals off-line avoiding the use of a centralized database for storing the biometric information. The system also implements an error-correction layer using the Hadamard code. The performance of the system is assessed using ECG signals from the MIT-BIH database and speech signals from a speech database created for testing purposes. Simulation results report a false acceptance rate (FAR) of 1.27% and a false rejection rate (FRR) of 10.62% for the system. The random cryptographic key released by the system may be used in several encryption algorithms.

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基于小波变换的密码密钥生成双峰生物识别系统

本文提出了一种利用小波变换处理语音和心电图信号的双峰生物识别密码密钥生成系统。这项工作是基于唯一性和准平稳行为的心电图和语音信号相对于个人。该系统的架构考虑了三个安全因素，即用户密码、生物特征样本和令牌。组成体系结构的阶段是\textit{一次性登记}和\textit{密钥派生}。该系统架构能够离线验证个人身份，避免使用中央数据库存储生物特征信息。该系统还使用Hadamard码实现了纠错层。系统的性能评估使用来自MIT-BIH数据库的心电信号和来自为测试目的创建的语音数据库的语音信号。仿真结果报告的错误接受率(FAR)为1.27% and a false rejection rate (FRR) of 10.62% for the system. The random cryptographic key released by the system may be used in several encryption algorithms.

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2009 Mexican International Conference on Computer Science

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