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ISCI
2008

Unconditionally secure cryptosystems based on quantum cryptography

13 years 11 months ago
Unconditionally secure cryptosystems based on quantum cryptography
Most modern cryptographic studies design cryptosystems and algorithms using mathematical concepts. In designing and analyzing cryptosystems and protocols, mathematical concepts are critical in supporting the claim that the intended cryptosystem is secure. Most early cryptographic algorithms are based either on factorization or on discrete logarithm problem. Such systems generally adopt rather simple mathematics, and, therefore, need extensive secondary index computation. This study discusses quantum cryptosystems, protection of system security, and optimization of system efficiency. Quantum cryptography detects intrusion and wiretap. In quantum mechanics, a wiretap is neither external nor passive; rather it modifies its entity based on the internal component of the system. The status of the quantum system changes once a wiretap is detected. Hence, only the designer of the system can discover the quantum status of the system; an eavesdropper can neither determine the quantum state nor ...
Yu-Fang Chung, Zhen Yu Wu, Tzer-Shyong Chen
Added 27 Dec 2010
Updated 27 Dec 2010
Type Journal
Year 2008
Where ISCI
Authors Yu-Fang Chung, Zhen Yu Wu, Tzer-Shyong Chen
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