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| Improved Authentication and Key Agreement Protocol Using Elliptic Curve Cryptography
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Full
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Source |
International Journal of Computer Science and Security (IJCSS) |
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Table of Contents |
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Complete Issue PDF(3.52MB) |
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Volume: 3 Issue: 4 |
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Pages: 272-333 |
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Publication
Date: August 2009 |
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ISSN
(Online): 1985-1553 |
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325 - 333 |
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Author(s) |
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Published
Date |
21-10-2009 |
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Publisher |
CSC
Journals, Kuala Lumpur,
Malaysia |
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ADDITIONAL
INFORMATION |
| Keywords Abstract References Cited by Related Articles Collaborative
Colleague |
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KEYWORDS: Elliptic Curve Cryptosystem , RSA, elliptic curve discrete logarithm problem |
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| The Elliptic Curve Cryptosystem (ECC) is an emerging alternative for traditional Public-Key Cryptosystem like RSA, DSA and DH. It provides the highest strength-per-bit of any cryptosystem known today with smaller key sizes resulting in faster computations, lower power consumption and memory. It also provides a methodology for obtaining high-speed, efficient and scalable implementation of protocols for authentication and key agreement. This paper provides an introduction to Elliptic Curves and how they are used to create a secure and powerful cryptosystem. It provides an overview of the three hard mathematical problems that provide the basis for the security of public key cryptosystems used today: the integer factorization problem (IFP), the discrete logarithm problem (DLP), and the elliptic curve discrete logarithm problem (ECDLP). It also explains the proposed protocols which were improved in reducing the storage requirements for establishing a shared secret key between two parties, to sign and verify a document and to establish a mutual authentication between two parties, and the result of implementation. |
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S. Gkarafli and A. A. Economides, “Comparing the Proof by Knowledge Authentication Techniques”, International Journal of Computer Science and Security (IJCSS), 4(2), pp. 237 – 255, 2010.
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A. M. Kane, “On the use of Continued Fractions for Electronic Cash”, International Journal of Computer Science and Security (IJCSS), 4(1), pp. 136 – 148, 2010.
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TechRepublic
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silicon.com
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ZDNet
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| A.Chandrasekar : Colleagues
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| V.R. Rajasekar : Colleagues
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| V. Vasudevan : Colleagues
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