Sterilization of image steganography using self-supervised convolutional neural network

With the development of steganography technology, lawbreakers can implement covert communication in social networks more easily, exacerbating network security risks. Sterilization of image steganography methods can eliminate secret messages to block the transmission of illegal covert communication....

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Bibliographic Details
Published in:PeerJ. Computer science 2024-09, Vol.10, p.e2330, Article e2330
Main Authors: Liu, Jinjin, Xu, Fuyong, Zhao, Yingao, Xin, Xianwei, Liu, Keren, Ma, Yuanyuan
Format: Article
Language:English
Subjects:
Image steganalysis
Neural networks
Self-supervised learning
Social networks
Steganography
Steganography sterilization
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Summary:With the development of steganography technology, lawbreakers can implement covert communication in social networks more easily, exacerbating network security risks. Sterilization of image steganography methods can eliminate secret messages to block the transmission of illegal covert communication. However, existing methods overly rely on cover-stego image pairs and are unable to sanitize unknown image, which reduces stego image blocking rate in social networks. To address the above problems, this paper proposes an effective sterilization of image steganography method using self-supervised convolutional neural network (SS-Net), which does not require any prior knowledge of image steganography schemes. SS-Net includes a purification module and a refinement module. Firstly, the pixel-shuffle down-sampling in purification module is adopted to reduce the spatial correlation of pixels in the stgeo image, and improve the learning mode from supervised learning to self-supervised learning. Secondly, centrally masked convolutions and dilated convolution residual blocks are merged to eliminate secret messages and avoid image quality degradation. Finally, a refinement module is employed to improve image texture details and boundaries. A series of experiments show that SS-Net from BOSSbase test sets is able to balance the destruction of secret messages with image quality, achieving 100% blocking rate of stego image. Meanwhile, our method outperforms the state-of-the-art methods in secret messages elimination ability and image quality preserving ability.
ISSN:2376-5992
2376-5992
DOI:10.7717/peerj-cs.2330