two-factor mutual authentication based on smart cards and passwords

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We proposed a new two-factor smart-card-based password mutual authentication scheme and showed that it satisfies all the desirable properties specified in this paper. In addition, we generalize the construction idea of our concrete scheme to a generic construction .A scheme of this type is called a smart-card-based password authentication scheme. The core feature of such a scheme is to enforce two-factor authentication in the sense that the client . We proposed a new two-factor smart-card-based password mutual authentication scheme and showed that it satisfies all the desirable properties specified in this paper. In addition, we generalize the construction idea of our concrete scheme to a generic construction framework which allows us to efficiently convert a password-based mutual .A scheme of this type is called a smart-card-based password authentication scheme. The core feature of such a scheme is to enforce two-factor authentication in the sense that the client must have the smart-card and know the password in order to gain access to the server.

We show that a secure password based key exchange protocol can be efficiently transformed to a smart-card-based password authentication scheme provided that there exist pseudorandom functions and target collision resistant hash functions.

In this paper, we scrutinize the security requirements of this kind of schemes, and propose a new scheme and a generic construction framework for smart-card-based password authentication.

Smart-card based password authentication has been the most widely used two-factor authentication (2FA) mechanism for security-critical applications (e.g., e-Health and e-Commerce). A two-factor password authentication scheme with Burrows–Abadi–Needham (BAN) logic that can resist various known attacks, including replay attacks, lost or stolen smart card attacks, and man-in-the-middle attacks.

We show that a secure two-factor smart-card-based password mutual authentication scheme can be constructed by transforming a proven secure one-factor password based mutual authentication protocol (under some appropriate security model) provided that there exist pseudorandom functions and target collision resistant hash functions. Using the concept of hyperelliptic curve cryptography (HECC), we propose a new solution: a smart card-based two-factor mutual authentication scheme. In this new scheme, HECC’s finest properties, such as compact parameters and key sizes, are utilized to enhance the real-time performance of an IoT-based TMIS system. As the most prevailing two-factor authentication mechanism, smart-card-based password authentication has been a subject of intensive research in the past two decades, and hundreds of this type of schemes have wave upon wave been proposed.

Two-factor mutual authentication based on smart cards and passwords One of the most commonly used two-factor user authentication mechanisms nowadays is based on smart-card and password. A scheme of this type is called a . We proposed a new two-factor smart-card-based password mutual authentication scheme and showed that it satisfies all the desirable properties specified in this paper. In addition, we generalize the construction idea of our concrete scheme to a generic construction framework which allows us to efficiently convert a password-based mutual .A scheme of this type is called a smart-card-based password authentication scheme. The core feature of such a scheme is to enforce two-factor authentication in the sense that the client must have the smart-card and know the password in order to gain access to the server.We show that a secure password based key exchange protocol can be efficiently transformed to a smart-card-based password authentication scheme provided that there exist pseudorandom functions and target collision resistant hash functions.

In this paper, we scrutinize the security requirements of this kind of schemes, and propose a new scheme and a generic construction framework for smart-card-based password authentication. Smart-card based password authentication has been the most widely used two-factor authentication (2FA) mechanism for security-critical applications (e.g., e-Health and e-Commerce).

A two-factor password authentication scheme with Burrows–Abadi–Needham (BAN) logic that can resist various known attacks, including replay attacks, lost or stolen smart card attacks, and man-in-the-middle attacks.

We show that a secure two-factor smart-card-based password mutual authentication scheme can be constructed by transforming a proven secure one-factor password based mutual authentication protocol (under some appropriate security model) provided that there exist pseudorandom functions and target collision resistant hash functions.

Using the concept of hyperelliptic curve cryptography (HECC), we propose a new solution: a smart card-based two-factor mutual authentication scheme. In this new scheme, HECC’s finest properties, such as compact parameters and key sizes, are utilized to enhance the real-time performance of an IoT-based TMIS system. As the most prevailing two-factor authentication mechanism, smart-card-based password authentication has been a subject of intensive research in the past two decades, and hundreds of this type of schemes have wave upon wave been proposed.

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NFC, which is short for near-field communication, is a technology that allows devices like phones and smartwatches to exchange small bits of data with other devices and read NFC-equipped.

two-factor mutual authentication based on smart cards and passwords|smart card 2 factor authentication

two-factor mutual authentication based on smart cards and passwords|smart card 2 factor authentication.

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