Abstract

A method for joint-transform correlator (JTC) multiple-image encryption based on a quick-response (QR) code key is proposed. The QR codes converted from different texts are used as key masks to encrypt and decrypt multiple images. Not only can Chinese text and English text be used as key text, but also symbols can be used. With this method, users have no need to transmit the whole key mask; they only need to transmit the text that is used to generate the key. The correlation coefficient is introduced to evaluate the decryption performance of our proposed cryptosystem, and we explore the sensitivity of the key mask and the capability for multiple-image encryption. Robustness analysis is also conducted in this paper. Computer simulations and experimental results verify the correctness of this method.

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  28. Y. Qin and Q. GongOptical information encryption based on incoherent superposition with the help of the QR codeOpt. Commun.20143106974
  29. J. F. Barrera, A. Mira, and R. TorrobaOptical encryption and QR codes: Secure and noise-free information retrievalOpt. Express20132153735378
  30. C. Lin, X. Shen, and B. LiFour-dimensional key design in amplitude, phase, polarization and distance for optical encryption based on polarization digital holography and QR codeOpt. Express2014222072720739
  31. S. Trejos, J. F. Barrera, and R. TorrobaOptimized and secure technique for multiplexing QR code images of single characters: application to noiseless messages retrievalErratum, J. Opt.201517129601
  32. A. Jaramillo, J. F. Barrera, A. V. Zea, and R. TorrobaFractional optical cryptographic protocol for data containers in a noise-free multiuser environmentOpt. Lasers Eng.2018102119125
  33. S. Jiao, Z. Jin, C. Zhou, W. Zou, and X. LiIs QR code an optimal data container in optical encryption systems from an error-correction coding perspective?J. Opt. Soc. Am. A201835A23A29

Other (33)

P. Refregier and B. JavidiOptical image encryption based on input plane and Fourier plane random encodingOpt. Lett.199520767769

G. Unnikrishnan and K. SinghDouble random fractional Fourier domain encoding for optical securityOpt. Eng.20003928532859

T. Nomura and B. JavidiOptical encryption using a joint transform correlator architectureOpt. Eng.20003920312035

G. Unnikrishnan, J. Joseph, and K. SinghOptical encryption by double-random phase encoding in the fractional Fourier domainOpt. Lett.200025887889

B. Hennelly and J. T. SheridanOptical image encryption by random shifting in fractional Fourier domainsOpt. Lett.200328269271

B. Javidi, A. Carnicer, M. Yamaguchi, T. Nomura, E. Pérez-Cabré, M. S. Millán, N. K. Nishchal, R. Torroba, J. F. Barrera, W. He, X. Peng, A. Stern, Y. Rivenson, A. Alfalou, C. Brosseau, C. Guo, J. T. Sheridan, G. Situ, M. Naruse, T. Matsumoto, I. Juvells, E. Tajahuerce, J. Lancis, W. Chen, X. Chen, P. W. H. Pinkse, A. P. Mosk, and A. MarkmanRoadmap on optical securityJ. Opt.201618083001

S. Yuan, X. Liu, X. Zhou, and Z. LiOptical encryption scheme with multiple users based on computational ghost imaging and orthogonal modulationJ. Opt. Soc. Korea201620476480

W. Sun, L. Wang, J. Wang, H. Li, and Q. WuOptical image encryption technique based on hybrid-pattern phase keysCurr. Opt. Photon.20182540546

S. H. Jeon and S. K. GilSecret key sharing cryptosystem using optical phase-shifting digital holographyCurr. Opt. Photon.20193119127

S. J. Park, J. Y. Kim, J. K. Bae, and S. J. KimFourier-plane encryption technique based on removing the effect of phase terms in a joint transform correlatorOpt. Rev.20018413415

C. L. Mela and C. IemmiOptical encryption using phase-shifting interferometry in a joint transform correlatorOpt. Lett.20063125622564

E. Rueda, J. F. Barrera, R. Henao, and R. TorrobaOptical encryption with a reference wave in a joint transform correlator architectureOpt. Commun.200928232433249

A. V. Zea, J. F. Barrera, and R. TorrobaThree-dimensional joint transform correlator cryptosystemOpt. Lett.201641599602

G. Situ and J. ZhangMultiple-image encryption by wavelength multiplexingOpt. Lett.20053013061308

G. Situ and J. ZhangPosition multiplexing for multiple-image encryptionJ. Opt. A: Pure Appl. Opt.20068391397

D. Amaya, M. Tebaldi, R. Torroba, and N. BologniniMultichanneled encryption via a joint transform correlator architectureAppl. Opt.20084759035907

A. Alfalou and A. MansourDouble random phase encryption scheme to multiplex and simultaneous encode multiple images,Appl. Opt.20094859335947

D. Amaya, M. Tebaldi, R. Torroba, and N. BologniniWavelength multiplexing encryption using joint transform correlator architectureAppl. Opt.20094820992104

X. Wang and D. ZhaoFully phase multiple-image encryption based on superposition principle and the digital holographic techniqueOpt. Commun.201228542804284

J. F. Barrera, M. Tebaldi, C. Rios, E. Rueda, N. Bolognini, and R. TorrobaExperimental multiplexing of encrypted movies using a JTC architectureOpt. Express20122033883393

D. Kong, X. Shen, Q. Xu, W. Xin, and H. GuoMultiple-image encryption scheme based on cascaded fractional Fourier transformAppl. Opt.20135226192625

E. Rueda, C. Rios, J. F. Barrera, R. Henao, and R. TorrobaExperimental multiplexing approach via code key rotations under a joint transform correlator schemeOpt. Commun.201128425002504

Q. Chen, X. Shen, S. Dou, C. Lin, and L. WangTopological charge number multiplexingfor JTC multiple-image encryptionOpt. Commun.2018412155160

J. Liu, T. Bai, X. Shen, S. Dou, C. Lin, and J. CaiParallel encryption for multi-channel images based on an optical joint transform correlatorOpt. Commun.2017396174184

J. F. Barrera, A. Mira-Agudelo, and R. TorrobaExperimental QR code optical encryption: noise-free data recoveringOpt. Lett.20143930743077

Z.-P. Wang, S. Zhang, H.-Z. Liu, and Y. QinSingle-intensity-recording optical encryption technique based on phase retrieval algorithm and QR codeOpt. Commun.20143323641

Z. Ren, P. Su, J. Ma, and G. JinSecure and noise-free holographic encryption with a quick-response codeChin. Opt. Lett.201412010601

Y. Qin and Q. GongOptical information encryption based on incoherent superposition with the help of the QR codeOpt. Commun.20143106974

J. F. Barrera, A. Mira, and R. TorrobaOptical encryption and QR codes: Secure and noise-free information retrievalOpt. Express20132153735378

C. Lin, X. Shen, and B. LiFour-dimensional key design in amplitude, phase, polarization and distance for optical encryption based on polarization digital holography and QR codeOpt. Express2014222072720739

S. Trejos, J. F. Barrera, and R. TorrobaOptimized and secure technique for multiplexing QR code images of single characters: application to noiseless messages retrievalErratum, J. Opt.201517129601

A. Jaramillo, J. F. Barrera, A. V. Zea, and R. TorrobaFractional optical cryptographic protocol for data containers in a noise-free multiuser environmentOpt. Lasers Eng.2018102119125

S. Jiao, Z. Jin, C. Zhou, W. Zou, and X. LiIs QR code an optimal data container in optical encryption systems from an error-correction coding perspective?J. Opt. Soc. Am. A201835A23A29

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