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Abstract: We present the first known implementation of elliptic curve cryptography over F2 p for sensor networks based on the 8-bit, 7.3828-MHz MICA2 mote. Through instrumentation of UC Berkeley's TinySec module, we argue that, although secret-key cryptography has been tractable in this domain for some time, there has remained a need for an efficient, secure mechanism for distribution of secret keys among nodes. Although public-key infrastructure has been thought impractical, we argue, through analysis... (Update)
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BibTeX entry: (Update)
D. J. Malan, M. Welsh, and M. D. Smith. A public-key infrastructure for key distribution in TinyOS based on elliptic curve cryptography. In First IEEE International Conference on Sensor and Ad Hoc Communications and Network, Santa Clara, California, October 2004. http://citeseer.ist.psu.edu/malan04publickey.html More
@misc{ malan04publickey,
author = "D. Malan and M. Welsh and M. Smith",
title = "A public-key infrastructure for key distribution in TinyOS based on elliptic
curve cryptography",
text = "D. J. Malan, M. Welsh, and M. D. Smith. A public-key infrastructure for
key distribution in TinyOS based on elliptic curve cryptography. In First
IEEE International Conference on Sensor and Ad Hoc Communications and Network,
Santa Clara, California, October 2004.",
year = "2004",
url = "citeseer.ist.psu.edu/malan04publickey.html" }
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128 A Subexponential Algorithm for the Discrete Logarithm Proble.. (context) - Adleman - 1979
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109 Digitalized signatures and public-key functions as intractab.. (context) - Rabin - 1979
101 A Survey of Fast Exponentiation Methods - Gordon - 1998
98 Selecting Cryptographic Key Sizes - Lenstra, Verheul - 1999
87 Authentication and authenticated key exchanges - Diffie, van Oorschot et al. - 1992
68 Fast Key Exchange with Elliptic Curve Systems - Schroeppel, Orman et al. - 1995
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