非自治微分方程的广义同步定理及其在加密方案中的应用

2007 International Conference on Computational Intelligence and Security (CIS 2007) Pub Date : 2007-12-15 DOI:10.1109/CIS.2007.170

Ting Liu, Ye Ji, Lequan Min, Geng Zhao, Xiaohong Qin

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引用次数: 1

摘要

本文介绍了一个设计非自主驱动系统的构造定理，该定理可以实现对驱动系统的广义混沌同步。作为第一个应用，建立了基于GCS非自治系统的加密方案。该方案具有基准认证和一次性录入功能。作为第二种应用，选择非自主驱动范德堡尔振荡器作为驱动系统。引入可逆变换H来设计一个驱动系统，使两个系统相对于H处于GS状态。基于GCS系统和该方案，可以对原始信息进行无损失的加密和解密。对密钥空间和密钥参数灵敏度的分析表明，该方案具有良好的安全性。该方案的键空间大于2148。可以预期，我们的定理为研究和理解GS现象提供了新的工具，该方案为信息加密提供了一种新的方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Generalized Synchronization Theorem for Non-Autonomous Differential Equation with Application in Encryption Scheme

This paper introduces a constructive theorem for design- ing a non-autonomous driven system, which can achieve generalized chaos synchronization (GCS) to a driving sys- tem. As a first application, a encryption scheme is established based on GCS non-autonomous systems. This scheme has the functions of the datum authentication and one-time-pad. As a second application, the non-autonomous Driven van der Pol oscillator is selected as a driving system. A invertible transform H is introduced to design a driven sys- tem such that the two systems are in GS with respect to H. Based on the GCS systems and the scheme one can en- crypt and decrypt original information without any loss. The analysis of the key space and sensitivity of key param- eters show that this scheme has sound security. The key space of the scheme is larger that 2148. It can be expected that our theorem provides a new tool for studying and understanding the GS phenomena and the scheme offers a new method for information encryption.

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2007 International Conference on Computational Intelligence and Security (CIS 2007)

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