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Networked Cryptographic Devices Resilient to Capture (2001)  (Make Corrections)  (15 citations)
Philip MacKenzie, Michael K. Reiter



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Abstract: We present a simple technique by which a device that performs private key operations (signatures or decryptions) in networked applications, and whose local private key is activated with a password or PIN, can be immunized to offline dictionary attacks in case the device is captured. Our techniques do not assume tamper resistance of the device, but rather exploit the networked nature of the device, in that the device's private key operations are performed using a simple interaction with a remote ... (Update)

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9:   Two-party generation of DSA signatures - MacKenzie, Reiter - 2001
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BibTeX entry:   (Update)

P. MacKenzie and M. Reiter. Networked cryptographic devices resilient to capture. Proceedings of the IEEE Symposium on Security and Privacy, IEEE, 2001. http://citeseer.ist.psu.edu/article/mackenzie01networked.html   More

@techreport{ mackenzie01networked,
    author = "Philip {MacKenzie} and Mike Reiter",
    title = "Networked cryptographic devices resilient to capture",
    number = "2001-19",
    year = "2001",
    url = "citeseer.ist.psu.edu/article/mackenzie01networked.html" }
Citations (may not include all citations):
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659   Random oracles are practical: A paradigm for designing effic.. - Bellare, Rogaway - 1993
601   A public key cryptosystem and a signature scheme based on di.. (context) - ElGamal - 1985
501   A digital signature scheme secure against adaptive chosen-me.. - Goldwasser, Micali et al. - 1988
419   How to construct random functions (context) - Goldreich, Goldwasser et al. - 1984
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12   Digital signature algorithm (context) - Kravitz - 1993
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8   IETF Request for Comments (context) - Dierks, Allen et al. - 1999
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