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Fully-phase optical image encryption in diffractive-imaging scheme with QR-code-based random illumination

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Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Based on a fully phase encoding and phase retrieval algorithm, a diffractive-imaging-based optical encryption scheme with random illumination is proposed. In the encryption process, a QR code image is placed in the optic path to modulate the incident light and thus generate a random illumination, which has been demonstrated to enable the proposed scheme to resist the multi-slice ptychographic phase retrieval algorithm attack. The plaintext is phase-encoded, and then encrypted by two random phase masks. The diffraction pattern in the output plane is recorded as ciphertext by a CCD camera. For decryption, an iterative phase retrieval algorithm with median filtering operation is implemented. Simulation results demonstrate the effectiveness, security, and robustness of the proposal.
Czasopismo
Rocznik
Strony
233--243
Opis fizyczny
Bibliogr. 22 poz., rys., tab.
Twórcy
autor
  • College of Physics and Electronic Engineering, Nanyang Normal University, Nanyang 473061, China
autor
  • College of Physics and Electronic Engineering, Nanyang Normal University, Nanyang 473061, China
autor
  • College of Mechanical and Electrical Engineering, Nanyang Normal University, Nanyang 473061, China
autor
  • College of Mechanical and Electrical Engineering, Nanyang Normal University, Nanyang 473061, China
autor
  • College of Mechanical and Electrical Engineering, Nanyang Normal University, Nanyang 473061, China
Bibliografia
  • [1] REFREGIER P., JAVIDI B., Optical image encryption based on input plane and Fourier plane random encoding, Optics Letters 20(7), 1995, pp. 767–769.
  • [2] UNNIKRISHNAN G., JOSEPH J., SINGH K., Optical encryption by double-random phase encoding in the fractional Fourier domain, Optics Letters 25(12), 2000, pp. 887–889.
  • [3] GUOHAI SITU, JINGJUAN ZHANG, Double random-phase encoding in the Fresnel domain, Optics Letters 29(14), 2004, pp. 1584–1586.
  • [4] LINFEI CHEN, DAOMU ZHAO, Optical image encryption based on fractional wavelet transform, Optics Communications 254(4–6), 2005, pp. 361–367.
  • [5] KUMAR NISHCHAL N., JOSEPH J., SINGH K., Securing information using fractional Fourier transform in digital holography, Optics Communications 235(4–6), 2004, pp. 253–259.
  • [6] ZHENGJUN LIU, LIE XU, CHUANG LIN, SHUTIAN LIU, Image encryption by encoding with a nonuniform optical beam in gyrator transform domains, Applied Optics 49(29), 2010, pp. 5632–5637.
  • [7] PÉREZ-CABRÉ E., MYUNGJIN CHO, JAVIDI B., Information authentication using photon-counting double-random-phase encrypted images, Optics Letters 36(1), 2011, pp. 22–24.
  • [8] CHAO LIN, XUEJU SHEN, BAOCHEN LI, Four-dimensional key design in amplitude, phase, polarization and distance for optical encryption based on polarization digital holography and QR code, Optics Express 22(17), 2014, pp. 20727–20739.
  • [9] JUN LI, JIAOSHENG LI, LINA SHEN, YANGYANG PAN, RONG LI, Optical image encryption and hiding based on a modified Mach–Zehnder interferometer, Optics Express 22(4), 2014, pp. 4849–4860.
  • [10] TOWGHI N., JAVIDI B., LUO Z., Fully phase encrypted image processor, Journal of the Optical Society of America A 16(8), 1999, pp. 1915–1927.
  • [11] KUMAR NISHCHAL N., JOSEPH J., SINGH K., Fully phase encryption using fractional Fourier transform, Optical Engineering 42(6), 2003, pp. 1583–1588.
  • [12] XIAOGANG WANG, DAOMU ZHAO, Fully phase multiple-image encryption based on superposition principle and the digital holographic technique, Optics Communications 285(21–22), 2012, pp. 4280–4284.
  • [13] MARKMAN A., JAVIDI B., Full-phase photon-counting double-random-phase encryption, Journal of the Optical Society of America A 31(2), 2014, pp. 394–403.
  • [14] BARRERA J.F., MIRA-AGUDELO A., TORROBA R., Experimental QR code optical encryption: noise-free data recovering, Optics Letters 39(10), 2014, pp. 3074–3077.
  • [15] BARRERA J.F., MIRA A., TORROBA R., Optical encryption and QR codes: secure and noise-free information retrieval, Optics Express 21(5), 2013, pp. 5373–5378.
  • [16] ZHI-PENG WANG, SHUAI ZHANG, HONG-ZHAO LIU, YI QIN, Single-intensity-recording optical encryption technique based on phase retrieval algorithm and QR code, Optics Communications 332, 2014, pp. 36–41.
  • [17] WEN CHEN, XUDONG CHEN, SHEPPARD C.J.R., Optical image encryption based on diffractive imaging, Optics Letters 35(22), 2010, pp. 3817–3819.
  • [18] WEN CHEN, XUDONG CHEN, ANAND A., JAVIDI B., Optical encryption using multiple intensity samplings in the axial domain, Journal of the Optical Society of America A 30(5), 2013, pp. 806–812.
  • [19] YI QIN, QIONG GONG, ZHIPENG WANG, Simplified optical image encryption approach using single diffraction pattern in diffractive-imaging-based scheme, Optics Express 22(18), 2014, pp. 21790–21799.
  • [20] XIAOGANG WANG, WEN CHEN, XUDONG CHEN, Optical binary image encryption using aperture-key and dual wavelengths, Optics Express 22(23), 2014, pp. 28077–28085.
  • [21] SHENLU ZHONG, MENGJIAO LI, XIAJIE TANG, WEIQING HE, XIAOGANG WANG, Information verification and encryption based on phase retrieval with sparsity constraints and optical inference, Optics and Lasers in Engineering 88, 2017, pp. 214–220.
  • [22] TUO LI, YISHI SHI, Security risk of diffractive-imaging-based optical cryptosystem, Optics Express 23(16), 2015, pp. 21384–21391.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-202f3672-8b26-4782-87ac-35809330246b
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