In quantum cryptography, as in most long-distance data transmission, the information is carried by photons, the particles which compose light and other sorts of electromagnetic radiation.
光子是光线和其它种类电磁辐射的构成粒子,同大部分的远距离数据传输方法一样,量子加密法中信息是通过光子传输的。
As a result of technical advances particularly the Internet and cryptography - the risks of conveying important information can be lowered.
伴随着技术的进步,特别是先进的互联网和密码学技术,使得传递重要信息的风险降低了。
This mysterious property, known as entanglement, has far reaching application potential in information fields such as quantum cryptography, quantum computation and quantum teleportation.
这个神秘的“纠缠”性质,在通信领域具有深远的应用潜力,如量子密码学,量子计算和量子隐态传输。
This mysterious property, known as “entanglement”, has far reaching application potential in information fields such as quantum cryptography, quantum computation and quantum teleportation.
这个神秘的“纠缠”性质,在通信领域具有深远的应用潜力,如量子密码学 ,量子计算和量子隐态传输 。
Note: See Resources for more information about cryptography in OpenBSD.
注意:有关OpenBSD中加密方面的更多信息,请参见参考资料部分。
Cryptography is the kernel of the secure communication and information security.
密码技术是保密通信和信息安全的核心技术。
Cryptography is an important technology to ensure data security, and has been widely utilized to transfer and store information.
加密作为保障数据安全的一种重要的技术,在信息的传输、存储等环节都得到了广泛的应用。
The application of DNA in information science brings new challenges and opportunities to modern cryptography.
DNA在信息科学中的应用,给现代密码学带来了新的挑战和机遇。
Zhang Futai, male, born in 1965, professor, PhD supervisor. His research interests include information security, network security and cryptography.
张福泰,男,1965年出生,教授,博士生导师,研究领域包括信息安全、网络安全、密码学。
Digital signatures, one of the most important components of cryptography, are the basic theory for protecting the integrity and authenticity of information.
数字签名是密码学中重要的组成部分之一,是信息完整性、真实性的理论基础。
Digital signatures, one of the most important components of cryptography, are the base of theory for protecting the integrity and authenticity of information.
数字签名是密码学中重要的组成部分之一,是信息完整性、真实性的理论基础。
Information hiding is an interlaced subject, which is built on the basis of mathematics, modern cryptography, information processing theory, and computer applied techniques.
信息隐藏技术是一门建立在数学、现代密码学、信息处理理论和计算机应用技术基础上的交叉性学科。
And cryptography involves scrambling information, converting what you a human can read into sort of nonsense that hopefully a bad guy cannot read.
密码包含不规则的信息,它把我们正常人能读懂的东西转化为,希望坏人读不懂的东西。
Based on our practice on graduate students' elective course of cryptography, we probe into its teaching organization and information security education in this paper.
本文根据笔者面向计算机专业硕士生开设密码学选修课的实践,探讨了密码学课程的教学组织和信息安全教育。
For more information on cryptographic configuration, see Configuring Cryptography Classes.
有关加密配置的更多信息,请参见配置加密类。
Cryptography is an important technology of information security. It can guarantees information's confidentiality, integrality and authentication.
密码学作为信息安全的重要技术,能有效保障信息的机密性、完整性和鉴别。
As the representative of quantum cryptography, the quantum key distribution (QKD) is a successful model that the quantum information technique is applied in to the conventional communications.
以量子密钥分配为代表的量子密码术是量子信息技术应用于经典通信的成功典范。
Quantum communication plays an important role of quantum information. The most typical quantum communication technology are quantum teleportation and quantum cryptography communication.
量子通信是量子信息中的一个重要分支,而其中最典型的量子通信技术是量子隐形传态和量子密码通信。
Cryptography is utilized widely in the field of information security.
密码技术被广泛应用于信息安全领域。
In this case, there's an antidote: cryptography, the use of codes and ciphers to protect information.
种情况下,有解决办法:密码学,用密码保护信息。
Play in information security Cryptography plays an important role in information security has become an important part.
在信息安全中起着举足轻重作用的密码学也就成为信息安全中不可或缺的重要部分。
Our experiment result is of great importance in experimental test of some fundamental problems in quantum mechanics, information theory, cryptography, and quantum computation etc.
实验结果在量子力学基础问题的检验、信息论、密码学和量子计算等重要应用方向上,都具有显著的意义和价值。
Cryptography is the core domain in the information security technique. It provides many algorithms and protocols to meet practical need.
密码学作为信息安全技术的核心领域,提供了多种密码算法与应用协议以满足人们实际应用的需要。
As the basis and core of information security, cryptography also attracts more and more attention. Brute force attack on symmetric cipher algorithms is an important direction of cryptography.
密码学作为信息安全的基础和核心,也越来越受到人们的关注,而暴力破解对称密码算法,是密码学研究的一个重要方向。
Based on modern cryptography, the security of information systems fundamentally depends upon the randomness of random Numbers which are used to produce important secret data.
建立在现代密码学基础上的信息安全系统,其安全性从根本上依赖于产生重要秘密数据所用随机数的随机性。
Technologies of cryptography are the core of information security.
密码技术是信息安全的核心技术。
Chaotic cryptography is an interdisciplinary subject of nonlinear science and information science, which has been widely studied by many scholars.
混沌密码学是非线性科学和信息科学的交叉学科,近些年来得到了众多学者的广泛研究。
From email to cellular communications, from secure Web access to digital cash, cryptography is an essential part of today's information systems.
从e - mail到蜂窝通讯系统,从安全网页到数字现金,加密算法已经是当今信息系统不可或缺的一部分。
Among the mass information security technology, cryptography does undoubtedly play an important role.
在保障信息安全的众多技术中,密码技术无疑扮演着举足轻重的角色。
Among the mass information security technology, cryptography does undoubtedly play an important role.
在保障信息安全的众多技术中,密码技术无疑扮演着举足轻重的角色。
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