Bit-level image encryption algorithm based on random-time S-Box substitution

被引:0
作者
Mengchen Wang
Hongjun Liu
Mengdi Zhao
机构
[1] University of Jinan,School of Mathematical Sciences
来源
The European Physical Journal Special Topics | 2022年 / 231卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
To solve the shortcomings of traditional cryptography such as 3DES, AES and SM4 in encrypting multimedia information, we proposed a bit-level image encryption algorithm based on chaos and S-Box. First, we constructed a 3D discrete memristor-based chaotic map (3D-MCM), which is hyperchaotic, and has ergodicity and better randomness in a larger parameter interval, then based on it, we constructed three S-Boxes with larger key space and without weakness. Furthermore, we applied the 3D-MCM and S-Boxes to design an encryption algorithm, whose novelty is that each half-pixel is substituted with a half-pixel substitution box (HPS-Box) before S-Box substitution with random times. Experimental and security analysis results demonstrated the effectiveness of the proposed 3D-MCM and S-Box in image encryption scheme.
引用
收藏
页码:3225 / 3237
页数:12
相关论文
共 103 条
[1]  
Erkan U(2022)2D eπ-map for image encryption[J] Inf. Sci. 589 770-789
[2]  
Toktas A(2022)Improved seven-dimensional (i7D) hyperchaotic map-based image encryption technique[J] Soft. Comput. 26 2689-2698
[3]  
Toktas F(2021)Image encryption algorithm based on 2D hyperchaotic map[J] Opt. Laser Technol. 142 122-133
[4]  
Alenezi F(2017)A novel bit-level image encryption algorithm based on 2D-LICM hyperchaotic map[J] Signal Process. 143 1697-1717
[5]  
Kaur M(2022)A tristable locally active memristor and its application in Hopfield neural network[J] Nonlinear Dyn. 108 78401-1058
[6]  
Singh D(2021)Artificial synaptic behavior of the SBT-memristor[J] Chin. Phys. B 30 1041-23
[7]  
Kumar V(2021)A S-type bistable locally active memristor model and its analog implementation in an oscillator circuit[J] Nonlinear Dyn. 106 12-2949
[8]  
Gao X(2022)An associative memory circuit based on physical memristors[J] Neurocomputing 472 104106-15055
[9]  
Cao C(2021)Chaos in the discrete memristor-based system with fractional-order difference[J] Res. Phys. 24 841-29
[10]  
Sun K(2021)Characteristic analysis of fractional-order memristor-based hypogenetic Jerk system and its DSP implementation[J] Electronics 10 2935-1551
12345678910