Louis Claude Guillou, Michel Ugon, and JeanJacques Quisquater. The smart card: A standardized security device dedicated to public cryptology. In Gustavus J Simmons, editor, Contemporary cryptology: The science of information integrity. IEEE Press, Piscataway, NJ, 1992.  Home/Search   Document Not in Database   Summary   Related Articles   Check

.... by National Semiconductor, some extended implementations of the Clipper and Capstone systems [2, 51, 52] proposed by the NSA as DES replacements, the Crypta Plus [47] encryption card by Telequip, the CY512i [13] chip from Cylink, and various smartcard systems such as some GEMPlus or Mondex cards [22]. There will be additional announcements of systems with increased processing power from major vendors in the next few months. For a fuller descriptions of potential platforms, see [60] 3 Applications Because secure coprocessors can process secrets as well as store them, they can do much more ....

.... the token is created by the vendor s sales program and destroyed by executing the application the exact time of destruction of the token is a vendor design decision, since runs of application programs are not, in general, transactional 3 Newer smartcards such as GEMPlus or Mondex cards [22] feature limited physical security protection, though the types of attacks these cards can withstand have not been published. in nature. However, the trusted electronic currency manager running in the secure coprocessorcan use distributed transactions to transfer money and other electronic ....

Louis Claude Guillou, Michel Ugon, and JeanJacques Quisquater. The smart card: A standardized security device dedicated to public cryptology. In Gustavus J Simmons, editor, Contemporary cryptology: The science of information integrity. IEEE Press, Piscataway, NJ, 1992.

....public sectors. The engagement of non European partners paves the way for global acceptance of smartcards. A typical smartcard contains an 8 bit microprocessor clocked at 5 Mhz with 8K of EEPROM and a few hundred bytes of RAM, communicating at 9.6 Kbps. Fast DES encryption has long been available [21], and arithmetic co processors are beginning to be used to provide for subsecond public key operations [22, 23] Most smartcards have advanced security features to protect the contents of memory from being read or altered by unauthorized users and to protect against improper execution of embedded ....

Louis Claude Guillou, Michel Ugon, and JeanJacques Quisquater, "The Smart Card: A Standardized Security Device Dedicated to Public Cryptology, " pp. 561-613 in Contemporary Cryptology: The Science of Information Integrity, ed. Gustavus J. Simmons, IEEE Press (1992).

....140 1 criteria. Some examples of possible technologies include the ABYSS [26] and Citadel [27] systems from IBM; the iPower [8] encryption card by National Semiconductor; the Crypta Plus [16] encryption card by Telequip; the CY512i chip from Cylink [3] and some tamper proof smart card systems [4]. There will be additional announcements of tamper proof devices with increased processing power from major vendors in the next few months. Many of these devices are highly portable and exist in PCMCIA or smart card format. We propose that users lease a secure device (private ownership of postal ....

Louis Claude Guillou, Michel Ugon, and Jean-Jacques Quisquater. The smart card: A standardized security device dedicated to public cryptology. In Gustavus J Simmons, editor, Contemporary cryptology: The science of information integrity. IEEE Press, Piscataway, NJ, 1992.

....140 1 criteria. Some examples of possible technologies include the ABYSS [26] and Citadel [27] systems from IBM; the iPower [8] encryption card by National Semiconductor; the Crypta Plus [16] encryption card by Telequip; the CY512i chip from Cylink [3] and some tamper proof smart card systems [4]. There will be additional announcements of tamper proof devices with increased processing power from major vendors in the next few months. Many of these devices are highly portable and exist in PCMCIA or smart card format. We propose that users lease a secure device (private ownership of postal ....

Louis Claude Guillou, Michel Ugon, and Jean-Jacques Quisquater. The smart card: A standardized security device dedicated to public cryptology. In Gustavus J Simmons, editor, Contemporary cryptology: The science of information integrity. IEEE Press, Piscataway, NJ, 1992.

....is maintained by the virtue of its portability. Users carry their smartcards with them at all times and provide the necessary physical security. Authentication techniques for smartcards have been widely studied [1, 54] Additionally, newer smartcard designs such as some GEMPlus or Mondex cards [35] feature limited physical security protection, providing a true (simple) secure coprocessor. The technology envelope defined by these platforms and their implementation parameters constrains the limits of secure coprocessor algorithms. As the computation power and physical protection mechanisms ....

....however, can violate smartcard integrity and insert false data. 16 Secure coprocessor mediated electronic currency transfer is analogous to rights transfer (not to be confused with rights copying) in a capability based protection system [107] 16 Newer smartcards such as GEMPlus or Mondex cards [35] feature limited physical security protection, though the types of attacks these cards can withstand have not been published. Using the electronic money e.g. spending it when running a pay per use program is analogous to the revocation of a capability. What about the other models for ....

Louis Claude Guillou, Michel Ugon, , and Jean-Jacques Quisquater. The smart card : A standardized security device dedicated to public cryptology. In Gustavus J Simmons, editor, Contemporary cryptology : The science of information integrity. IEEE Press, Piscataway, NJ, 1992.

....140 1 criteria. Some examples of possible technologies include the ABYSS [16] and Citadel [17] systems from IBM; the iPower [5] encryption card by National Semiconductor; the Crypta Plus [15] encryption card by Telequip; the CY512i chip from Cylink [1] and some tamper proof smart card systems [2]. There will be additional announcements of tamper proof devices with increased processing power from major vendors in the next few months. For a fuller descriptions of potential platforms, see [18] Many of these devices are highly portable and exist in PCMCIA or smart card format. We propose ....

Louis Claude Guillou, Michel Ugon, and Jean-Jacques Quisquater. The smart card: A standardized security device dedicated to public cryptology. In Gustavus J Simmons, editor, Contemporary cryptology: The science of information integrity. IEEE Press, Piscataway, NJ, 1992.

.... by National Semiconductor; some extended implementations of the Clipper and Capstone systems [2, 51, 52] proposed by the NSA as DES replacements; the Crypta Plus [47] encryption card by Telequip; the CY512i [13] chip from Cylink; and various smartcard systems such as some GEMPlus or Mondex cards [22]. There will be additional announcements of systems with increased processing power from major vendors in the next few months. For a fuller descriptions of potential platforms, see [60] 3 Applications Because secure coprocessors can process secrets as well as store them, they can do much more ....

.... the token is created by the vendor s sales program and destroyed by executing the application the exact time of destruction of the token is a vendor design decision, since runs of application programs are not, in general, transactional 3 Newer smartcards such as GEMPlus or Mondex cards [22] feature limited physical security protection, though the types of attacks these cards can withstand have not been published. in nature. However, the trusted electronic currency manager running in the secure coprocessorcan use distributed transactions to transfer money and other electronic ....

Louis Claude Guillou, Michel Ugon, and JeanJacques Quisquater. The smart card: A standardized security device dedicated to public cryptology. In Gustavus J Simmons, editor, Contemporary cryptology: The science of information integrity. IEEE Press, Piscataway, NJ, 1992.

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