smart card-based secure authentication protocol in multi-server iot environment In this paper, we propose a smart card-based authentication protocol, which performs the authentication for each entity by allowing users to go through the authentication .
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0 · Smart card
1 · Smart Card
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During the registration phase, the user Ui and the IoT server Sj request registration to the authentication server CS. In return, the authentication server issues a smart card to the user Ui, and sends the necessary values for the login and authentication phases to the IoT server Sj . This process is . See moreDuring the login and authentication phase, the verification of the legitimate smart card holder is performed. In order to login, the user Ui sends a login request . See moreThe password change phase is the process performed when the user Ui wants to change their password Pi to a new one PiNEW. The process is illustrated in . See moreIn this study, we use the AVISPA web tool for the formal verification of the authentication protocol. The AVISPA web tool can specify the authentication protocol . See more
In this paper, we propose a smart card-based authentication protocol, which performs the authentication for each entity by allowing users to go through the authentication . In this paper, we propose a smart card-based authentication protocol, which performs the authentication for each entity by allowing users to go through the authentication . In this paper, we propose a smart card-based authentication protocol, which performs the authentication for each entity by allowing users to go through the authentication . In this section, we propose a secure biometric-based authentication scheme for multi-server environment using smart card, where all the servers need not to be trusted and .
Development of a novel security protocol based on smart cards for IoT networks. ScPUAK is based on Elliptic curve cryptography, user’s biometry and hash functions. The .Bae and Kwak proposed a smart-card-based secure AKA protocol in a multi-server IoT environment. The proposed protocol has been shown to be secure against replay attacks, . In this paper, we propose a smart card-based authentication protocol, which performs the authentication for each entity by allowing users to go through the authentication . In this current research communication a smart card-based remote user authentication in a multi-server environment using user biometrics and a Chebyshev chaotic .
In recent years, the internet of things has been widely utilized in various fields, such as in smart factories or connected cars. As its domain of application has expanded, it has begun to be . The proposed protocol is based on XOR and hash operations, and includes: (i) a 3-factor authentication (ie, password, biometrics, and smart device); (ii) mutual authentication; .In this paper, we propose a smart card-based authentication protocol, which performs the authentication for each entity by allowing users to go through the authentication process using .
In this paper, we propose a smart card-based authentication protocol, which performs the authentication for each entity by allowing users to go through the authentication .
Smart card
In this paper, we propose a smart card-based authentication protocol, which performs the authentication for each entity by allowing users to go through the authentication . In this section, we propose a secure biometric-based authentication scheme for multi-server environment using smart card, where all the servers need not to be trusted and . Development of a novel security protocol based on smart cards for IoT networks. ScPUAK is based on Elliptic curve cryptography, user’s biometry and hash functions. The .
Bae and Kwak proposed a smart-card-based secure AKA protocol in a multi-server IoT environment. The proposed protocol has been shown to be secure against replay attacks, . In this paper, we propose a smart card-based authentication protocol, which performs the authentication for each entity by allowing users to go through the authentication . In this current research communication a smart card-based remote user authentication in a multi-server environment using user biometrics and a Chebyshev chaotic .In recent years, the internet of things has been widely utilized in various fields, such as in smart factories or connected cars. As its domain of application has expanded, it has begun to be .
The proposed protocol is based on XOR and hash operations, and includes: (i) a 3-factor authentication (ie, password, biometrics, and smart device); (ii) mutual authentication; .
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smart card-based secure authentication protocol in multi-server iot environment|Smart card