基于改进的四维混沌系统的十六进制加扰图像加密方案

Shengtao Geng, Heng Zhang, Xuncai Zhang
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引用次数: 0

摘要

本文提出了一种基于改进的四维混沌系统的图像加密方案。首先,在陈混沌系统的基础上引入新的状态变量构建了四维混沌系统,并通过相图、分岔图、Lyapunov指数、NIST测试等验证了其混沌行为。其次,使用哈希函数 SHA-512 和纯图像信息生成初始混沌密钥。使用混沌系统生成的混沌序列对普通图像进行奇偶校验扰码。然后将图像转换成十六进制字符矩阵,根据字符的高位和低位分成两个平面,并使用混沌序列生成两个位置索引矩阵进行扰码。然后将两个平面还原为十六进制字符矩阵,再进一步转换为图像矩阵的形式。最后,根据混沌序列选择不同的组合运算扩散公式进行扩散,得到加密图像。根据仿真实验和安全性评估,该方案能有效地加密灰色图像,并对各种类型的攻击表现出很强的安全性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A hexadecimal scrambling image encryption scheme based on improved four-dimensional chaotic system

A hexadecimal scrambling image encryption scheme based on improved four-dimensional chaotic system

This paper proposes an image encryption scheme based on an improved four-dimensional chaotic system. First, a 4D chaotic system is constructed by introducing new state variables based on the Chen chaotic system, and its chaotic behavior is verified by phase diagrams, bifurcation diagrams, Lyapunov exponents, NIST tests, etc. Second, the initial chaotic key is generated using the hash function SHA-512 and plain image information. Parity scrambling is performed on the plain image using the chaotic sequence generated by the chaotic system. The image is then converted into a hexadecimal character matrix, divided into two planes according to the high and low bits of the characters and scrambled by generating two position index matrices using chaotic sequences. The two planes are then restored to a hexadecimal character matrix, which is further converted into the form of an image matrix. Finally, different combined operation diffusion formulas are selected for diffusion according to the chaotic sequence to obtain the encrypted image. Based on simulation experiments and security evaluations, the scheme effectively encrypts gray images and shows strong security against various types of attacks.

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