Computational Imaging Encryption with a Steganographic and Holographic Authentication Strategy

Author:

Wang Xiaogang12ORCID,Zhou Qingming1,Zhang Lin1,Xue Jidong2,Xu Bijun1ORCID,Yu Xinning1,Wang Sheng1,Zhang Zhenyu1

Affiliation:

1. Department of Applied Physics Zhejiang University of Science and Technology Hangzhou 310023 P. R. China

2. College of Optical Mechanical and Electrical Engineering Zhejiang A&F University Hangzhou 311300 P. R. China

Abstract

AbstractRobust data security is of paramount importance, particularly for highly classified information. To achieve this, advanced encryption and decryption methods, along with stringent access control and physical security measures, are essential to mitigate the risk of unauthorized access and data exposure. Ghost imaging (GI), a computational imaging technique that operates indirectly, offers a distinct approach compared to traditional spatially resolved imaging techniques. By utilizing computational algorithms, GI enables indirect image reconstruction, making it well‐suited for encryption applications. This proposal introduces a new computational imaging encryption scheme that combines Fourier ghost imaging (FGI) and computational holography. The scheme utilizes an untrained‐tree‐network to generate two camouflaged computer‐generated holograms (CGHs). Integration of CGH‐based steganography and holographic authentication enhances the encoding and decoding processes of FGI encryption. The effectiveness and security of the proposed scheme are rigorously validated through numerical simulations and optical experiments. The results demonstrate promising potential for effectively merging direct and indirect imaging methods in security applications.

Funder

National Natural Science Foundation of China

Publisher

Wiley

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