Overview of Optical Image Authentication Schemes; Double Random Phase Encoding and Photon Counting Imaging

2018 17th Workshop on Information Optics (WIO) Pub Date : 2018-07-01 DOI:10.1109/WIO.2018.8643456

K. Jaferzadeh, I. Moon

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Abstract

Double-random-phase encoding technique (DRPE) is an optical image encryption technique which has the advantage of parallelisms with optical processing. In this study, we aim to evaluate cryptographic properties of DRPE scheme. DRPE encodes an input image into a complex-amplitude image which real and imaginary parts resemble independent stationary white noises. The encryption process can be employed by using two random phase masks as keys and two lenses in Fourier space. The original image can be decoded only when the exact keys are given. To verify the performance of the authentication of DRPE images the peak-to-correlation energy (PCE) between the reference images and the input images are computed. Further, to improve the robustness against different attacks, photon counting imaging (PCI) technique and DRPE can be integrated. PCI encrypts amplitude part of DRPE by using various numbers of photons. Experimental results demonstrate that the DRPE is highly key sensitive while the authentication verification is completely preserved. Also, results of PC-DRPE encryption technique seem to perform reasonably well in terms of security and authentication factors.

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光学图像认证方案综述双随机相位编码与光子计数成像

双随机相位编码技术(DRPE)是一种光学图像加密技术，具有与光学处理并行的优点。在本研究中，我们旨在评估DRPE方案的密码学性质。DRPE将输入图像编码成实部和虚部类似于独立的静止白噪声的复幅图像。在傅里叶空间中使用两个随机相位掩模作为密钥和两个透镜来实现加密过程。只有给出了正确的密钥，原始图像才能被解码。为了验证DRPE图像认证的性能，计算了参考图像与输入图像之间的峰值相关能(PCE)。此外，为了提高对不同攻击的鲁棒性，可以将光子计数成像(PCI)技术与DRPE技术相结合。PCI通过使用不同数量的光子对DRPE的振幅部分进行加密。实验结果表明，该算法具有较高的密钥敏感性，且认证验证完整。此外，PC-DRPE加密技术的结果似乎在安全性和身份验证因素方面表现得相当好。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2018 17th Workshop on Information Optics (WIO)

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