G.I. Davida, Y. Frankel, and B.J. Matt. On enabling secure applications through off-line biometric identification. In IEEE Symposium on Privacy and Security, 1998.  Home/Search   Document Not in Database   Summary   Related Articles   Check

.... a stable cryptographic hash value even facing feature variations caused by acceptable manipulations (such as lossy compression, single pass or multiple iterations) Note that similar idea on using ECC to tame acceptable distortions has been explored in other research fields such as biometrics [6] In Section 2, we will describe with details our proposed framework. Our framework is general and can be used together with any invariant or almost invariant features extractable from images. Section 3 includes an implementation example using the invariant features that has been explored in a ....

G. k Davida, Y. Frankel and B. J. Matt, On enabling secure applications through off-line biometric identification, Proceedings of the 1998.

.... the Hamming distance for the biometric readings of two different users has been shown to be much higher, about 45 percent (or 920 bits) Recently, a cryptographically secure mechanism for off line biometric identification based on majority decoding and error correction codes (ECC) was developed [DFM98]. The process of an off line biometric system is the following. A user, during an initialization step, is provided with a storage device token (e.g. a magnetic strip, smartcard, etc. by a trusted authorization authority. The token contains a signature and other data which can later be used to ....

....because template could be used for unacceptable purposes if the template is obtained by an unauthorized individual. For instance, an iris scan may be used for medical purposes by an insurance company instead of the legitimate identification process the user was told to submit to. In the work [DFM98], the feasibility of protecting the privacy of a user s biometric on an insecure storage device was studied. It was suggested that providing additional privacy for the user s biometric may provide for stronger user acceptance. An additional constraint to make the system scalable was 2 that ....

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G. I. Davida, Y. Frankel, and B. J. Matt. On enabling secure applications through off-line biometric identification. In 1998 IEEE Symposium on Security and Privacy, pages 148--157, 1998. 9

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G.I. Davida, Y. Frankel, and B.J. Matt. On enabling secure applications through off-line biometric identification. In IEEE Symposium on Privacy and Security, 1998.

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G. I. Davida, Y. Frankel, and B. J. Matt, "On enabling secure applications through off-line biometric identification," in Proc. IEEE Symposium on Security and Privacy, pp. 148--157, May 1998.

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G. I. Davida, Y. Frankel, and B. J. Matt, "On enabling secure applications through off-line biometric identification," in Proc. 1998 IEEE Symp. Privacy and Security, pp. 148--157.

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G. I. Davida, Y. Frankel and B. J. Matt "On Enabling Secure Applications Through Off-line Biometric Identification" in IEEE Symposium on Security and Privacy

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G. I. Davida, Y. Frankel and B. J. Matt. On Enabling Secure Applications Through Off-line Biometric Identification. In the Proceedings of 1998 IEEE Symposium on Security and Privacy, pp 148-157, 1998.

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G. I. Davida, Y. Frankel, and B. J. Matt. On enabling secure applications through off-line biometric identification. In Proceedings of the 1998.

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George I. Davida, Yair Frankel, Brian J. Matt, B. J. On Enabling Secure Applications Through OffLine Biometric Identification; IEEE Symposium on Security and Privacy, IEEE Press 1998, 148159.

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