基于UIO的数字图像混沌加密与传输

V. Sharma, B. Sharma, R. Nath
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引用次数: 2

摘要

本文提出了一种基于离散时间未知输入观测器(UIO)设计与离散时间混沌加密相结合的数字图像安全通信方案。混沌信号是在无限长范围内不具有周期性的伪随机信号。但是,只要精确地知道系统参数和混沌系统的初始条件等少数参数,就可以生成该序列。由于给定的伪随机性和对参数的极端敏感性,混沌序列是加密的理想选择。在文献中,这些混沌序列一般是使用连续时间混沌系统生成的。由于要传输的图像数据是数字形式的,并且加密算法也在数字设备上执行,因此提出使用离散时间混沌通信方案。进一步分析了该算法在数字图像加密中的有效性。为了进一步提高安全性,将加密数据嵌入到离散时间混沌发射机系统的动态中。为了在接收端恢复消息,给出了离散时间UIO的设计以及利用估计状态恢复未知消息信号的过程。用lmi的形式解析导出了UIO的存在条件。这些lmi的解给出观测器设计矩阵。通过研究传输信号的返回映射,分析了基于UIO的混沌通信方案对攻击的鲁棒性。据报道,混沌通信方案的安全性会因研究发射信号的返回映射而受到损害。为了验证该方法的有效性,给出了仿真和安全性分析结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Digital image chaotic encryption and transmission using UIO
In present work, secure communication scheme for digital images based on discrete time unknown input observer (UIO) design blended with discrete time chaotic encryption is presented. Chaotic signals are pseudo random signals with no periodicity over infinite length. However, the series can be generated with the precise knowledge of the few parameters like system parameters and initial conditions of the chaotic system. With the given nature of pseudo-randomness and extreme sensitivity to parameters, chaotic sequences are ideal for encryption. In literature, these chaotic sequences are generally generated using continuous time chaotic systems. Since image data to be transmitted is in digital form and encryption algorithms are also executed on digital devices, so it is proposed to use discrete time chaotic communication scheme. Further, its effectiveness for encryption of digital images is also analyzed. To further enhance the security encrypted data is embedded in the dynamics of discrete time chaotic transmitter system. To recover the message at the receiver, design of discrete time UIO along with a procedure to recover unknown message signal using estimated states is given. Existence conditions for the UIO are analytically derived in terms of LMIs. Solution of these LMIs gives the observer design matrices. Robustness of UIO based chaotic communication scheme against attacks is analyzed by studying return maps of the transmitted signal. It is reported that security of chaotic communication scheme can be compromised by studying the return maps of the transmitted signal. To validate the proposed approach results of simulation and security analysis are presented.
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