Natias: Neuron Attribution based Transferable Image Adversarial Steganography

Zexin Fan, Kejiang Chen, Kai Zeng, Jiansong Zhang, Weiming Zhang, Nenghai Yu
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Abstract

Image steganography is a technique to conceal secret messages within digital images. Steganalysis, on the contrary, aims to detect the presence of secret messages within images. Recently, deep-learning-based steganalysis methods have achieved excellent detection performance. As a countermeasure, adversarial steganography has garnered considerable attention due to its ability to effectively deceive deep-learning-based steganalysis. However, steganalysts often employ unknown steganalytic models for detection. Therefore, the ability of adversarial steganography to deceive non-target steganalytic models, known as transferability, becomes especially important. Nevertheless, existing adversarial steganographic methods do not consider how to enhance transferability. To address this issue, we propose a novel adversarial steganographic scheme named Natias. Specifically, we first attribute the output of a steganalytic model to each neuron in the target middle layer to identify critical features. Next, we corrupt these critical features that may be adopted by diverse steganalytic models. Consequently, it can promote the transferability of adversarial steganography. Our proposed method can be seamlessly integrated with existing adversarial steganography frameworks. Thorough experimental analyses affirm that our proposed technique possesses improved transferability when contrasted with former approaches, and it attains heightened security in retraining scenarios.
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纳蒂亚斯基于神经元归因的可转移图像对抗隐写术
图像隐写术是一种在数字图像中隐藏秘密信息的技术。而隐写分析则旨在检测图像中是否存在秘密信息。最近,基于深度学习的隐写分析方法取得了卓越的检测性能。作为一种对策,对抗式隐写术因其能够有效欺骗基于深度学习的隐分析而备受关注。然而,隐写分析师往往使用未知的隐写分析模型进行检测。因此,对抗性隐写术欺骗非目标隐写分析模型的能力(即可转移性)变得尤为重要。然而,现有的对抗隐写方法并没有考虑如何增强可转移性。为了解决这个问题,我们提出了一种名为 Natias 的新型对抗隐写方案。具体来说,我们首先将隐写分析模型的输出归属于目标中间层的每个神经元,以识别关键特征。接下来,我们破坏这些可能被不同隐写模型采用的关键特征。因此,它可以提高对抗性隐写术的可转移性。我们提出的方法可以与现有的对抗式隐写术框架无缝集成。全面的实验分析表明,与以前的方法相比,我们提出的技术具有更高的可移植性,并且在再训练场景中实现了更高的安全性。
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