Improving Cross-dataset Deepfake Detection with Deep Information Decomposition

Deepfake technology poses a significant threat to security and social trust. Although existing detection methods have demonstrated high performance in identifying forgeries within datasets using the same techniques for training and testing, they suffer from sharp performance degradation when faced with cross-dataset scenarios where unseen deepfake techniques are tested. To address this challenge, we propose a deep information decomposition (DID) framework in this paper. Unlike most existing deepfake detection methods, our framework prioritizes high-level semantic features over visual artifacts. Specifically, it decomposes facial features into deepfake-related and irrelevant information and optimizes the deepfake information for real/fake discrimination to be independent of other factors. Our approach improves the robustness of deepfake detection against various irrelevant information changes and enhances the generalization ability of the framework to detect unseen forgery methods. Extensive experimental comparisons with existing state-of-the-art detection methods validate the effectiveness and superiority of the DID framework on cross-dataset deepfake detection.