The adolescence of smart cards
Future Generation Computer Systems - Special issue on smart cards
The computer for the 21st century
ACM SIGMOBILE Mobile Computing and Communications Review - Special issue dedicated to Mark Weiser
WebCard: a java card web server
Proceedings of the fourth working conference on smart card research and advanced applications on Smart card research and advanced applications
How to turn a GSM SIM into a web server
Proceedings of the fourth working conference on smart card research and advanced applications on Smart card research and advanced applications
Java Card Technology for Smart Cards: Architecture and Programmer's Guide
Java Card Technology for Smart Cards: Architecture and Programmer's Guide
Enabling Distributed Corba Access to Smart Card Applications
IEEE Internet Computing
Smart Card Crypto-Coprocessors for Public-Key Cryptography
CARDIS '98 Proceedings of the The International Conference on Smart Card Research and Applications
Design principles for tamper-resistant smartcard processors
WOST'99 Proceedings of the USENIX Workshop on Smartcard Technology on USENIX Workshop on Smartcard Technology
Efficient remote user authentication scheme using smart card
Computer Networks: The International Journal of Computer and Telecommunications Networking
Efficient authentication and key distribution in wireless IP networks
IEEE Wireless Communications
Internet card, a smart card as a true Internet node
Computer Communications
New E-Payment Scenarios in an Extended Version of the Traditional Model
ICCSA '08 Proceedings of the international conference on Computational Science and Its Applications, Part II
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Traditionally, the smart cards have been seen as security devices, but as soon as they could be integrated into distributed and networked environments their vulnerabilities could be attempted and countermeasures against new security threats in an open-access internet were required. In this work, our target could be represented by an end-to-end mutual authentication scenario where the smart card could authenticate by itself to a Network Access Server by means of link layer protocols and therefore in absence of IP connectivity. Some previous related models based on the Extensible Authentication Protocol are presented. However, in these works the smart card and terminal implement jointly the supplicant functionality (split supplicant). We consider the native EAP multiplexing model specified by the IETF to propose a new approach in order to avoid this split and to achieve an autonomous and highly independent smart card in the authentication scheme: a self-authenticable smart card.