在Diffie-Hellman密钥交换协议中使用量子随机数生成器

G. Mogos
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引用次数: 2

摘要

随着信息社会的发展,在计算机网络中流通的信息(主要是经济信息)的数量急剧增加,加速了现代密码学工具的发展,特别是现代密码学工具的使用。现代密码学的作用是通过特定的数学手段,从理论上和实践上保证信息的四个基本特征:机密性、完整性、真实性和不可否认性。本文介绍了在一个实例项目中获得的一系列结果,其目的是基于量子特性集成设备,以逐步取代目前易受攻击的经典设备,并开发软件应用。该实验模型实现了客户机-服务器类型的体系结构,并在密钥获取机制中集成了量子随机数生成器,通过实验模型的性能和测试得到了上述结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Use quantum random number generator in Diffie-Hellman key exchange protocol
The development of information society, which led to an impressive increase of the volume of information, mostly economic, which was circulated in computer networks, accelerated the development and especially the use of modern cryptography tools. The role of modern cryptography is to assure by specific mathematical means, both theoretically and practically, the four basic characteristics of information: confidentiality, integrity, authenticity, and nonrepudiation. This paper presents a series of results obtained within an ample project, whose purpose is to integrate devices based on quantum properties, in order to gradually replace the current classical equipment which becomes vulnerable, and also to develop software applications. The results were obtained as a result of performance and testing of an experimental model which implements an architecture of client-server type, and which integrates a quantum random number generator in the mechanism of obtaining the cryptographic key.
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