Fighting Deepfake by Residual Noise Using Convolutional Neural Networks

2020 3rd International Conference on Signal Processing and Information Security (ICSPIS) Pub Date : 2020-11-25 DOI:10.1109/ICSPIS51252.2020.9340138

M. Rai, Hussain Al-Ahmad, O. Gouda, Dina Jamal, M. A. Talib, Q. Nasir

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引用次数: 7

Abstract

In the last few years, the easy access to images and videos shared online have been continuously increased. The generative adversarial networks using deep learning leads to create very realistic deepfake videos by playing with the digital content of images and videos. The spread of such deepfake videos on social media networks urged the international community to consider seriously its danger and accordingly encouraged the researchers around the world to develop powerful deepfake detection methods. Many approaches are available in the recent literature. In this paper, the proposed approach is based on exploiting the residual noise which is the difference between original image and its denoised version. The study of residual noise has shown effectiveness in deep-fake detection with regards to its distinctive and discriminative features which can be effectively captured by convolutional neural networks with transfer learning. The performance of our approach is evaluated on two datasets: low-resolution video sequences of the FaceForensics++ and high-resolution videos from Kaggle Deepfake Detection challenge (DFDC). The obtained results show relevant accuracy in comparison with other competitive methods.

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利用卷积神经网络残差噪声对抗深度造假

在过去的几年里，在网上分享图像和视频的方便访问不断增加。使用深度学习的生成式对抗网络可以通过处理图像和视频的数字内容来创建非常逼真的深度假视频。这种深度造假视频在社交网络上的传播，促使国际社会认真考虑其危险性，并相应地鼓励世界各地的研究人员开发强大的深度造假检测方法。在最近的文献中有许多可用的方法。本文提出的方法是基于利用残差噪声，即原始图像与去噪后的图像之间的差异。残差噪声的研究表明，残差噪声具有明显的判别性，可以通过卷积神经网络的迁移学习有效地捕获残差噪声。我们的方法在两个数据集上进行了性能评估:face取证++的低分辨率视频序列和Kaggle Deepfake Detection挑战(DFDC)的高分辨率视频。所得结果与其他竞争方法相比具有一定的准确性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2020 3rd International Conference on Signal Processing and Information Security (ICSPIS)

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