2,933 research outputs found
A Robust and Effective Smart-Card-Based Remote User Authentication Mechanism Using Hash Function
In a remote user authentication scheme, a remote server verifies whether a login user is genuine and trustworthy, and also for mutual authentication purpose a login user validates whether the remote server is genuine and trustworthy. Several remote user authentication schemes using the password, the biometrics, and the smart card have been proposed in the literature. However, most schemes proposed in the literature are either computationally expensive or insecure against several known attacks. In this paper, we aim to propose a new robust and effective password-based remote user authentication scheme using smart card. Our scheme is efficient, because our scheme uses only efficient one-way hash function and bitwise XOR operations. Through the rigorous informal and formal security analysis, we show that our scheme is secure against possible known attacks. We perform the simulation for the formal security analysis using the widely accepted AVISPA (Automated Validation Internet Security Protocols and Applications) tool to ensure that our scheme is secure against passive and active attacks. Furthermore, our scheme supports efficiently the password change phase always locally without contacting the remote server and correctly. In addition, our scheme performs significantly better than other existing schemes in terms of communication, computational overheads, security, and features provided by our scheme
Enhanced Biometrics-based Remote User Authentication Scheme Using Smart Cards
Authentication and key exchange are fundamental techniques for
enabling secure communication over mobile networks. In order to
reduce implementation complexity and achieve computation
efficiency, design issues for efficient and secure
biometrics-based remote user authentication scheme have been
extensively investigated by research community in these years.
Recently, two well-designed biometrics-based authentication
schemes using smart cards are introduced by Li and Hwang and Li et
al., respectively. Li and Hwang proposed an efficient
biometrics-based remote user authentication scheme using smart
card and Li et al. proposed an improvement. The authors of both
schemes claimed that their protocol delivers important security
features and system functionalities, such as without synchronized
clock, freely changes password, mutual authentication, as well as
low computation costs. However, these two schemes still have much
space for security enhancement. In this paper, we first
demonstrate a series of vulnerabilities on these two schemes.
Then, an enhanced scheme with corresponding remedies is proposed
to eliminate all identified security flaws in both schemes
Biometric identity-based cryptography for e-Government environment
Government information is a vital asset that must be kept in a trusted environment and efficiently managed by authorised parties. Even though e-Government provides a number of advantages, it also introduces a range of new security risks. Sharing confidential and top-secret information in a secure manner among government sectors tend to be the main element that government agencies look for. Thus, developing an effective methodology is essential and it is a key factor for e-Government success. The proposed e-Government scheme in this paper is a combination of identity-based encryption and biometric technology. This new scheme can effectively improve the security in authentication systems, which provides a reliable identity with a high degree of assurance. In addition, this paper demonstrates the feasibility of using Finite-state machines as a formal method to analyse the proposed protocols
Modelling and simulation of a biometric identity-based cryptography
Government information is a vital asset that must be kept in a trusted environment and efficiently managed by authorised parties. Even though e-Government provides a number of advantages, it also introduces a range of new security risks. Sharing confidential and top-secret information in a secure manner among government sectors tend to be the main element that government agencies look for. Thus, developing an effective methodology is essential and it is a key factor for e-Government success. The proposed e-Government scheme in this paper is a combination of identity-based encryption and biometric technology. This new scheme can effectively improve the security in authentication systems, which provides a reliable identity with a high degree of assurance. In addition, this paper demonstrates the feasibility of using Finite-state machines as a formal method to analyse the proposed protocols
A Formal Study of the Privacy Concerns in Biometric-Based Remote Authentication Schemes
With their increasing popularity in cryptosystems, biometrics have attracted more and more attention from the information security community. However, how to handle the relevant privacy concerns remains to be troublesome. In this paper, we propose a novel security model to formalize the privacy concerns in biometric-based remote authentication schemes. Our security model covers a number of practical privacy concerns such as identity privacy and transaction anonymity, which have not been formally considered in the literature. In addition, we propose a general biometric-based remote authentication scheme and prove its security in our security model
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