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Novel self-embedding holographic watermarking image encryption protection scheme |
| Linian Wang(王励年)1, Nanrun Zhou(周楠润)2, Bo Sun(孙博)1,†, Yinghong Cao(曹颖鸿)1, and Jun Mou(牟俊)1,‡ |
1 School of Information Science and Engineering, Dalian Polytechnic University, Dalian 116034 China;
2 School of Electronic and Electrical Engineering, Shanghai University of Engineering Science, Shanghai 201620, China |
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Abstract For digital image transmission security and information copyright, a new holographic image self-embedding watermarking encryption scheme is proposed. Firstly, the plaintext is converted to the RGB three-color channel, the corresponding phase hologram is obtained by holographic technology and the watermark is self-embedded in the frequency domain. Secondly, by applying the Hilbert transform principle and genetic center law, a complete set of image encryption algorithms is constructed to realize the encryption of image information. Finally, simulation results and security analysis indicate that the scheme can effectively encrypt and decrypt image information and realize the copyright protection of information. The introduced scheme can provide some support for relevant theoretical research, and has practical significance.
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Received: 20 October 2023
Revised: 07 January 2024
Accepted manuscript online: 09 January 2024
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PACS:
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05.45.-a
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(Nonlinear dynamics and chaos)
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05.45.Gg
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(Control of chaos, applications of chaos)
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| Fund: Project supported by the National Natural Science Foundation of China (Grant No. 62061014). |
Corresponding Authors:
Bo Sun,E-mail:sunbo 0709@126.com;Jun Mou,E-mail:moujun@csu.edu.cn
E-mail: sunbo 0709@126.com;moujun@csu.edu.cn
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Cite this article:
Linian Wang(王励年), Nanrun Zhou(周楠润), Bo Sun(孙博), Yinghong Cao(曹颖鸿), and Jun Mou(牟俊) Novel self-embedding holographic watermarking image encryption protection scheme 2024 Chin. Phys. B 33 050501
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[1] Zhang N, Yang P, Ren J, Chen D, Yu L and Shen X 2018 IEEE Wireless Communications 25 12
[2] Javaid M, Haleem A, Singh R P and Suman R X 2022 Journal of Industrial Integration and Management 7 83
[3] Yu M, Yao H and Qin C 2022 Signal Processing:Image Communication 105 116696
[4] Pivoto D G, de Almeida L F, da Rosa Righi R, Rodrigues J J, Lugli A B and Alberti A M 2021 Journal of Manufacturing Systems 58 176
[5] Zhang T, Gao L, He C, Zhang M, Krishnamachari B and Avestimehr A S 2022 IEEE Internet of Things Magazine 5 24
[6] Wang X Y, Zhang Y Q and Bao X M 2015 Optics and Lasers in Engineering 73 53
[7] Xian Y, Wang X, Zhang Y, Yan X and Leng Z 2023 Multimedia Tools and Applications 82 407
[8] Al Hayani B and Ilhan H 2020 Journal of Medical Imaging And Health Informatics 10 160
[9] Xian Y, Wang X, Zhang Y, Yan X and Leng Z 2023 Multimedia Tools and Applications 82 407
[10] Zhu S, Deng X, Zhang W and Zhu C 2023 Mathematics and Computers in Simulation 207 322
[11] Wang X, Ren Q and Jiang D 2021 Nonlinear Dyn. 104 4543
[12] Teng L, Wang X, Yang F and Xian Y 2021 Nonlinear Dyn. 105 1859
[13] Thakur S, Singh A K, Ghrera S P and Elhoseny M 2019 Multimedia Tools and Applications 78 3457
[14] Daoui A, Karmouni H, Sayyouri M and Qjidaa H 2022 Expert Systems with Applications 190 116193
[15] Shakir H R 2019 Multimedia Tools and Applications 78 26073
[16] Lu Q, Zhu C and Deng X 2020 IEEE Access 8 25664
[17] Cavuolu U, Kaar S, Zengin A and Pehlivan I 2018 Nonlinear Dyn. 92 1745
[18] Song W, Zheng Y, Fu C and Shan P 2020 Information Sciences 518 211
[19] Wu X, J Kurths and Kan H 2018 Multimedia Tools and Applications 77 12349
[20] Zhou K, Fan J, Fan H and Li M 2020 Optics and Laser Technology 121 105769
[21] Liu G, Li M Z, Mao Z and Yang Q S 2022 Mechanical Systems and Signal Processing 166 108418
[22] Zhang X, Wang L, Zhou Z and Niu Y 2019 IEEE Access 7 74734
[23] Guan M, Yang X and Hu W 2010 IET Image Processing 13 1535
[24] Wang X and Li Y 2021 Optics and Lasers in Engineering 137 106393
[25] Liu X, Mou J, Wang J, Banerjee S and Li P 2022 Fractal and Fractional 6 671
[26] Lai Q 2021 International Journal of Bifurcation and Chaos 31 2150013
[27] Ye X, Wang X, Gao S, Mou J, Wang Z and Yang F 2020 Nonlinear Dyn. 99 1489
[28] Khan M, Shah T and Batool S I 2017 Multimedia Tools and Applications 76 24027
[29] Daoui A, Karmouni H, Sayyouri M and Qjidaa H 2022 Expert Systems with Applications 190 116193
[30] Liu X, Wu Y, Zhang H, Wu J and Zhang L 2021 Signal Processingr 189 108275
[31] Attaullah, Shah T and Jamal S S 2020 Wireless personal communications 110 1429
[32] Singh H 2018 IET Image Processing 12 1994
[33] Bordel B, Alcarria R, Robles T and Iglesias M S 2021 IEEE Access 9 22378
[34] Pavithra V and Chandrasekaran J 2021 IGI Global 82 612
[35] Gao H and Gao T 2019 Multimedia Tools and Applications 78 7267
[36] Barmherzig D A, Sun J, Li P N, Lane T J and Candes E J 2019 Inverse Problems 35 094001
[37] Lang J and Zhang Z G 2014 Optics and Lasers in Engineering 53 112
[38] Anand A and Singh A K 2021 Sustainable Cities and Society 75 103398
[39] Bouslimi D, Coatrieux G and Roux C 2012 Computer Methods and Programs in Biomedicine 106 47
[40] Wang B, Zou F C and Zhang Y 2018 Optik 172 873
[41] Hua Z, Jin F, Xu B and Huang H 2018 Signal Processing 149 148
[42] Farah MA Ben, Farah A and Farah T 2020 Nonlinear Dyn. 99 3041
[43] Chai X, Chen Y and Broyde L 2017 Optics and Lasers in engineering 88 197
[44] Liu Y, Wang J, Fan J and Gong L 2016 Multimedia Tools and Applications 75 4363
[45] Wang X, Wang S Wei N and Zhang Y 2019 IETE Technical Review 36 39
[46] Chai X, Zhang J, Gan Z and Zhang Y 2019 Multimedia Tools and Applications 78 35419
[47] Naseer Y, Shah D and Shah T 2019 Microprocessors and Microsystems 65 1
[48] Nkandeu Y P K and Tiedeu A 2019 Multimedia Tools and Applications 78 10013
[49] Parvaz R and Zarebnia M 2018 Optics and Laser Technology 101 30
[50] Zhang Y Q, He Y, Li P and Wang X Y 2020 Optics and Lasers in Engineering 128 106040
[51] Kang X and Guo Z 2020 Signal Processing 80 115670
[52] Herbadji D, Belmeguenai A, Derouiche N and Liu H 2020 IET Image Processing 14 40
[53] Zhang Y Q, He Y, Li P and Wang X Y 2020 Optics and Lasers in Engineering 128 106040
[54] Arpac B, Kurt E and Celik K 2020 Optics and Lasers in Engineering 23 595
[55] Oshi A B, Kumar D, Mishra D C and Guleria V 2020 Journal of Modern Optics 67 933
[56] Ma Y, Mou J, Banerjee S and M M 2023 Applied and Computational Mathematics 22 317
[57] Zhang Z, Mou J, Banerjee S and Cao Y 2024 Chin. Phys. B 33 020503
[58] Liu X, Mou J, Zhang Y and Cao Y 2023 IEEE Transactions on Industrial Electronics
[59] Ren L, Mou J, Banerjee S and Zhang Y 2023 Chaos, Solitons and Fractals 167 113024
[60] Wang X, Cao Y, Hadi J, Alotaibi N D and Bi X 2023 Nonlinear Dyn. |
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