Steganographic Secret Sharing With GAN-Based Face Synthesis and Morphing for Trustworthy Authentication in IoT

As an effective way to securely transfer secret images, secret image sharing (SIS) has been a noteworthy area of research. Basically in a SIS scheme, a secret image is shared via shadows and could be reconstructed by having the required number of them. A major downside of this method is its noise‐like shadows, which draw the malicious users' attention. In order to overcome this problem, SIS schemes with meaningful shadows are introduced in which the shadows are first hidden in innocent‐looking cover images and then shared. In most of these schemes, the cover image cannot be recovered without distortion, which makes them useless in case of utilising critical cover images such as military or medical images. Also, embedding the secret data in Least significant bits of the cover image, in many of these schemes, makes them very fragile to steganlysis. A reversible IWT‐based SIS scheme using Rook polynomial and Hamming code with authentication is proposed. In order to make the scheme robust to steganalysis, the shadow image is embedded in coefficients of Integer wavelet transform of the cover image. Using Rook polynomial makes the scheme more secure and moreover makes authentication very easy and with no need to share private key to participants. Also, utilising Hamming code lets us embed data with much less required modifications on the cover image which results in high‐quality stego images.

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Steganographic secret sharing via AI-generated photorealistic images

Gao

Chang

Horng

et al. 2022

J Wireless Com Network

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Steganographic secret sharing is an access control technique that transforms a secret message into multiple shares in a steganographic sense. Each share is in a human-readable format in order to dispel suspicion from a malicious party during transmission and storage. Such a human-readable format can also serve to facilitate data management. The secret can be reconstructed only when a sufficient number of authorized shareholders collaborate. In this study, we use neural networks to encode secret shares into photorealistic image shares. This approach is conceptually related to coverless image steganography in which the data are transformed directly into an image rather than concealed into a cover image. We further implement an authentication mechanism to verify the integrity of the image shares presented in the decoding phase. All coverless image steganography schemes can be used to achieve steganographic secret sharing, but our detection mechanism can further improve the robustness of these schemes. Experimental results confirm the robustness of the proposed scheme against various steganalysis and tampering attacks.

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Steganographic Secret Sharing With GAN-Based Face Synthesis and Morphing for Trustworthy Authentication in IoT

Cited by 6 publications

References 30 publications

A (t,n)- Secret image sharing with steganography based on Rook polynomial and LWE problem

A (t,n)- Secret image sharing with steganography based on Rook polynomial and LWE problem

Integer wavelet transform‐based secret image sharing using rook polynomial and hamming code with authentication

Steganographic secret sharing via AI-generated photorealistic images

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