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一种基于量子动力学旋转和转动的新型图像加密方案。

A novel image encryption scheme based on quantum dynamical spinning and rotations.

机构信息

Department of Applied Mathematics and Statistics, Institute of Space Technology, Islamabad, Pakistan.

Department of Electrical Engineering, Institute of Space Technology, Islamabad, Pakistan.

出版信息

PLoS One. 2018 Nov 19;13(11):e0206460. doi: 10.1371/journal.pone.0206460. eCollection 2018.

DOI:10.1371/journal.pone.0206460
PMID:30452455
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6242313/
Abstract

Quantum information processing made a tremendous and remarkable impact on number of classical mechanic's problems. The impact does not only stop at classical mechanics but also the cyber security paradigm. Quantum information and cryptography are two classes of quantum information processing which use the idea of qubits instead of bits as in classical information security. The idea of fast computations with multiple complexity level is becoming more realistic in the age of quantum information due to quantum parallelism where a single quantum computer does allow to compute hundreds of classical computers with less efforts and more accuracy. The evolution of quantum information processing replaces a number of classical mechanic's aspects in computational and cyber security sciences. Our aim here is to introduce concepts of applied quantum dynamics in cryptography, which leads to an evolution of quantum cryptography. Quantum cryptography is one of the most astonishing solicitations of quantum information theory. To measure the quantum state of any system is not possible without disturbing that system. The facts of quantum mechanics on traditional cryptosystems lead to a new protocol and achieving maximum remarkable security for systems. The scope of this paper is to design an innovative encryption scheme for digital data based on quantum spinning and rotation operators.

摘要

量子信息处理对许多经典力学问题产生了巨大而显著的影响。这种影响不仅止于经典力学,还影响了网络安全范式。量子信息和密码学是两类量子信息处理,它们使用量子比特的概念来代替经典信息安全中的比特。由于量子并行性,具有多个复杂程度的快速计算的想法在量子信息时代变得更加现实,单个量子计算机允许以更少的努力和更高的精度计算数百台经典计算机。量子信息处理的发展取代了计算和网络安全科学中许多经典力学方面。我们的目标是在密码学中引入应用量子动力学的概念,这将导致量子密码学的发展。量子密码学是量子信息理论最令人惊讶的应用之一。不干扰系统就不可能测量任何系统的量子态。量子力学对传统密码系统的事实导致了一种新的协议,并为系统实现了最大的显著安全性。本文的范围是基于量子旋转和旋转算符设计一种用于数字数据的创新加密方案。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a7db/6242313/85f50254b0e9/pone.0206460.g013.jpg
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