Adversarial feature hybrid framework for steganography with shifted window local loss

Image steganography is a long-standing image security problem that aims at hiding information in cover images. In recent years, the application of deep learning to steganography has the tendency to outperform traditional methods. However, the vigorous development of CNN-based steganalyzers still have a serious threat to steganography methods. To address this gap, we present an end-to-end adversarial steganography framework based on CNN and Transformer learned by shifted window local loss, called StegoFormer, which contains Encoder, Decoder, and Discriminator. Encoder is a hybrid model based on U-shaped network and Transformer block, which effectively integrates high-resolution spatial features and global self-attention features. In particular, Shuffle Linear layer is suggested, which can enhance the linear layer's competence to extract local features. Given the substantial error in the central patch of the stego image, we propose shifted window local loss learning to assist Encoder in generating accurate stego images via weighted local loss. Furthermore, Gaussian mask augmentation method is designed to augment data for Discriminator, which helps to improve the security of Encoder through adversarial training. Controlled experiments show that StegoFormer is superior to the existing advanced steganography methods in terms of anti-steganalysis ability, steganography effectiveness, and information restoration.& COPY; 2023 Elsevier Ltd. All rights reserved.

Automated summary

Image steganography is a longstanding image security problem, and the application of deep learning in recent years has outperformed traditional methods. However, CNN-based steganalyzers pose a serious threat to steganography. To address this, a new adversarial steganography framework called StegoFormer is proposed, based on CNN and Transformer with shifted window local loss. Experimental results show that StegoFormer surpasses existing methods in anti-steganalysis ability, steganography effectiveness, and information restoration.