有源磁控忆阻超混沌电路实现及图像加密

计算机工程与科学 ›› 2022, Vol. 44 ›› Issue (08): 1392-1401.

• 计算机网络与信息安全 • 上一篇下一篇

有源磁控忆阻超混沌电路实现及图像加密

张洁1,2,徐龙昊1，2,尹宝全1,2

（1.西北师范大学物理与电子工程学院，甘肃兰州 730070；
2.甘肃省智能信息技术与应用工程研究中心，甘肃兰州 730070）

收稿日期:2021-07-01 修回日期:2021-11-04 接受日期:2022-08-25 出版日期:2022-08-25 发布日期:2022-08-25
基金资助:
甘肃省科技计划(20JR10RA080);西北师范大学青年教师能力提升计划(NWNU-LKQN-17-14)

An active magnetron memristor hyperchaotic circuit and image encryption

ZHANG Jie1,2，XU Long-hao1,2，YIN Bao-quan1,2

(1.School of Physics and Electronic Engineering,Northwest Normal University,Lanzhou 730070;
2.Engineering Research Center of Gansu Province
for Intelligent Information Technology and Application,Lanzhou 730070,China)

Received:2021-07-01 Revised:2021-11-04 Accepted:2022-08-25 Online:2022-08-25 Published:2022-08-25

摘要/Abstract

摘要： 在一个广义三阶Rucklidge系统的基础上提出基于二次非线性有源磁控忆阻器的四阶超混沌电路系统。对该系统的动力学行为进行理论分析和数值仿真，系统相图、Lyapunov指数谱、分岔图和共存吸引子均表明该系统具有丰富的动力学行为和新的拓扑结构。并利用Multisim电路仿真软件和FPGA数字硬件电路设计实现了该系统的电路，实验结果与数值仿真结果一致。最后将置乱-扩散算法与DNA加密相结合设计了一种图像加密算法，利用新系统混沌序列对图像进行加密，并对加密后的图像进行了加密直方图、相邻像素相关性、敏感性、鲁棒性和信息熵等分析。结果表明，新系统对混沌密钥及明文都非常敏感，密钥空间较大，提出的混沌系统应用于图像加密具有较高的安全性能。

关键词: 超混沌系统；动力学行为；电路实现；图像加密；DNA动态编码 ,

Abstract: On the basis of a generalized third-order Rucklidge system, a fourth-order hyperchaotic circuit system based on an quadratic nonlinear active magnetron memristor is proposed. The dynamics characteristics of the system, such as system phase diagram, Lyapunov exponential spectrum, bifurcation diagram, and coexisting attractor are studied by numerical simulation. The analysis results show that the system has rich dynamics characteristics and new topological structure. The system's circuit is designed and implemented by using Multisim circuit simulation software and FPGA digital hardware circuit. The experimental consequences are very consistent with the numerical simulation results. Finally, an image encryption algorithm is designed by combining scrambling-diffusion algorithm with DNA encryption. The new system chaotic sequence is used to encrypt image, and the encryption histogram, correlation between adjacent pixels, sensitivity, robustness and information entropy are analyzed. The results show that the new system is very sensitive to both chaotic key and plaintext, and the key space is large. The proposed chaotic system has high security performance when applied to image encryption.

Key words: hyperchaotic system, dynamic behavior, circuit implementation, image encryption, DNA dynamic coding

张洁, 徐龙昊, 尹宝全, . 有源磁控忆阻超混沌电路实现及图像加密[J]. 计算机工程与科学, 2022, 44(08): 1392-1401.

ZHANG Jie, XU Long-hao, YIN Bao-quan, . An active magnetron memristor hyperchaotic circuit and image encryption[J]. Computer Engineering & Science, 2022, 44(08): 1392-1401.

参考文献［19］

［1］	Chua L O.Memristor-The missing circuit element［J］.IEEE Transactions on Circuit Theory,1971,18(5):507-519.
［2］	Li Zhi-jun, Zeng Yi-cheng, Li Zhi-bin.Memristive chaotic circuit based on modified SC-CNNs［J］.Acta Physica Sinica,2014,63(1):010502.(in Chinese)
［3］	Ding Qian-wen,Zhang Liang,Hong Cong,et al.A current-type feedforward neural network circuit based on multi- resistance memristor devices［J］.Chinese Journal of Electron Devices,2020,43(6):1249-1256.(in Chinese)
［4］	Xiao Jian,Zhang Liang,Zhang Zi-heng,et al.A voltage feedforward neural network circuit based on multiple resistance states memristor［J］.Microeletronics,2020,50(3):331-338.(in Chinese)
［5］	Zheng Ya-wen,Hu Xiao-fang,Zhou Yue,et al.Biomimetic adaptive memristive cellular neural network for image enhancement［J］.Scientia Sinica Informationis,2020,50(12):1850-1866.(in Chinese)
［6］	Chen M, Ren X, Wu H G,et al.Periodically varied initial offset boosting behaviors in a memristive system with cosine memductance［J］.Frontiers of Information Technology & Electronic Engineering,2019,20(12):1706-1716.
［7］	Sun Liang,Luo Jia, Qiao Yin-hu.A locally active memristor circuit and its application in a coupled Hindmarsh-Rose neuron network ［J］.Journal of Electronics & Information Technology,2021,43(11)：3374-3383.(in Chinese)
［8］	Wang Yun, Qian Xin,Weng Ye-cui,et al.Dynamic analysis and circuit simulation of fractional-order memristive time- delay chaotic system ［J］.Ship Electronic Engineering,2021,41(2):88-91.(in Chinese)
［9］	Li Q D, Zeng H, Li J,et al.Hyperchaos in a 4D memristive circuit with infinitely many stable equilibria［J］.Nonlinear Dynamics,2015,79(4):2295-2308.
［10］	Liu H J, Wang X Y, Kadir A.Image encryption using DNA complementary rule and chaotic maps［J］.Applied Soft Computing,2012,12(5):1457-1466.
［11］	Gao Cheng-ming,Huang Xin,Tang Xin-yue,et al.Chaos-based scrambling-diffusion image encryption algorithm［J］.Journal of Natural Science of Heilongjiang University,2019,36(3):363-368.(in Chinese)
［12］	Fang Peng-fei,Huang Lu-guang,Lou Miao-miao,et al.An image encryption algorithm based on combing two- dimensional Logistic chaotic map and DNA sequence operation ［J］.China Sciencepaper,2021,16(3):248-252.(in Chinese)
［13］	Rucklidge A M.Chaos in models of double convection［J］.Journal of Fluid Mechanics,1992,237:209-229.
［14］	Zhan Kai, Jiang Wen-gang.Novel four-wing hyper-chaos system and its application in image encryption［J］.Computer Engineering and Applications,2017,53(12):36-44.(in Chinese)
［15］	Li Lin, Kong Liu-yong.A new image encryption algorithm based on chaos［J］.Journal of System Simulation,2018,30(3):954-961.(in Chinese)
［16］	Qu Shuang-hui,Yang Zhi-hong,Rong Xu-wei,et al.A new memristor chaotic system and its application in image encryption［J］.Journal of System Simulation,2019,31(5):984-991.(in Chinese)
［17］	Enayatifar R,Abdull A H,Isnin I F.Chaos based image encryption using a hybrid genetic algorithm and a DNA sequence［J］.Optics and Lasers in Engineering,2014,56:83-93.
［18］	Min Fu-hong, Wang Zhu-lin,Wang En-rong,et al.New memristor chaotic circuit and its application to image encryption［J］.Journal of Electronics & Information Technology,2016,38(10):2681-2688.(in Chinese)
［19］	Tian Jia-lu,Deng Li-guo.Image encryption method based on fifth order CNN hyperchaotic system［J］.Journal of Xihua University（Natural Science Edition）,2021,40(2):63-70.(in Chinese)
	附中文参考文献：
［2］	李志军,曾以成,李志斌.改进型细胞神经网络实现的忆阻器混沌电路［J］.物理学报,2014,63(1):010502.
［3］	丁倩雯,张粮,洪聪,等.基于多态忆阻的新型前馈神经网络仿真电路［J］.电子器件，2020,43(6):1249-1256.
［4］	肖建,张粮,张子恒,等.一种基于多态忆阻器的电压型神经网络电路［J］.微电子学，2020,50(3):331-338.
［5］	郑雅文,胡小方,周跃，等.用于图像增强的仿生自适应细胞神经网络［J］.中国科学,2020,50(12):1850-1866.
［7］	孙亮,罗佳,乔印虎.局部有源忆阻器电路及其在HR耦合神经元网络中的应用［J］.电子与信息学报,2021,43(11):3374-3383.
［8］	王匀,钱鑫,翁业翠，等.分数阶时滞忆阻混沌电路的动力学分析及电路仿真［J］.船舶电子工程,2021,41(2):88-91.
［11］	高成明,黄欣,唐薪玥,等.基于混沌的置乱-扩散图像加密算法［J］.黑龙江大学自然科学学报,2019,36(3):363-368.
［12］	方鹏飞,黄陆光,娄苗苗,等.基于二维Logistic混沌映射与DNA序列运算的图像加密算法［J］.中国科技论文,2021,16(3):248-252.
［14］	战凯,姜文刚.一个新四翼超混沌系统及其在图像加密中应用［J］.计算机工程与应用,2017,53(12):36-44.
［15］	李琳,孔刘勇.一种基于混沌的新型图像加密算法［J］.系统仿真学报,2018,30(3):954-961.
［16］	曲双惠,杨志宏,容旭巍,等.一个新忆阻混沌系统及其在图像加密中的应用［J］.系统仿真学报,2019,31(5):984-991.
［18］	闵富红,王珠林,王恩荣,等.新型忆阻器混沌电路及其在图像加密中的应用［J］.电子信息学报,2016,38(10):2681-2688.
［19］	田佳鹭,邓立国.基于5阶CNN超混沌系统的图像加密方法［J］.西华大学学报(自然科学版),2021,40(2):63-70.

[1]	赵振宇, 杨天豪, 蒋汶乘, 张书政. 基于机器学习的多压多温多参标准单元延迟快速计算方法[J]. 计算机工程与科学, 2023, 45(08): 1331-1338.
[2]	熊国杰, 张津铭, 贺光辉. 一种面向Chiplet互连的高效传输协议设计与实现[J]. 计算机工程与科学, 2023, 45(08): 1339-1346.
[3]	孙彩霞, 隋兵才, 邓全, 郑重, 倪晓强, 王永文. 应用级兼容RISC-V的混合指令集处理器[J]. 计算机工程与科学, 2023, 45(08): 1347-1353.
[4]	马思远, 焦佳辉, 任晟岐, 宋伟. 基于注意力机制的城市多元空气质量数据缺失值填充[J]. 计算机工程与科学, 2023, 45(08): 1354-1364.
[5]	史明川, 龙巧洲, 邹鸿基, 李暾. 基于Surrogate模型的断言覆盖技术研究[J]. 计算机工程与科学, 2023, 45(08): 1365-1375.
[6]	高文才, 陈小文. 一种基于混合加固的容软错误NoC路由器[J]. 计算机工程与科学, 2023, 45(08): 1376-1382.
[7]	王星苏, 熊文, 张瑞. 海量地铁乘客轨迹相似性连接方法：以深圳地铁为例[J]. 计算机工程与科学, 2023, 45(08): 1383-1392.
[8]	夏戈明, 虞朝栋, 陈健. 边缘计算中的信任问题：挑战与评论[J]. 计算机工程与科学, 2023, 45(08): 1393-1404.
[9]	尹春勇, 冯梦雪. 基于注意力机制的半监督日志异常检测方法[J]. 计算机工程与科学, 2023, 45(08): 1405-1415.
[10]	余子丞, 凌捷. 基于Transformer和多特征融合的DGA域名检测方法[J]. 计算机工程与科学, 2023, 45(08): 1416-1423.
[11]	侯占伟, 李鑫, 王辉, 申自浩, 刘琨, 刘沛骞. 面向路网的空间众包隐私保护任务分配算法[J]. 计算机工程与科学, 2023, 45(08): 1424-1432.
[12]	印杰, 黄肖宇, 刘家银, 牛博威, 谢文伟, . 基于预训练语言模型的安卓恶意软件检测方法[J]. 计算机工程与科学, 2023, 45(08): 1433-1442.
[13]	谷文俊, 张晟恺, 邱晓梦, 李亚康, 宋伟. 基于双模态的小角散射图像结构表征技术研究[J]. 计算机工程与科学, 2023, 45(08): 1443-1452.
[14]	唐剑, 车文刚, 高盛祥. 融入注意力机制的多尺度卷积图像去雾方法[J]. 计算机工程与科学, 2023, 45(08): 1453-1462.
[15]	吴栋梁, 刘知贵, . 基于轻量化YOLOX的电子元器件缺陷检测方法研究[J]. 计算机工程与科学, 2023, 45(08): 1463-1471.

有源磁控忆阻超混沌电路实现及图像加密

An active magnetron memristor hyperchaotic circuit and image encryption

PDF

可视化

摘要/Abstract

引用本文

使用本文

参考文献［19］

相关文章 15

编辑推荐

Metrics

本文评价

有源磁控忆阻超混沌电路实现及图像加密

An active magnetron memristor hyperchaotic circuit and image encryption

PDF

可视化

摘要/Abstract

引用本文

使用本文

参考文献 ［19］

相关文章 15

编辑推荐

Metrics

本文评价

参考文献［19］